26-30th June 2016, Munich/Germany
IMPRINT
MAI Carbon Cluster Management GmbH · c/o Carbon Composites e. V. · Am Technologiezentrum 5 · 86159 Augsburg · Phone: +49 (0) 8 21/26 84 11-10 · Fax: +49 (0) 8 21/26 84 11-09 · e-mail: info@mai-carbon.de
District Court Augsburg · HRB 27065 · Chairman: Prof. Klaus Drechsler (TUM LCC) · Managing Director of MAI Carbon Department: Alexander Gundling
design & implementation:
www.bestmarke-agentur.de
title picture: shutterstock.de
www.eccm17.org
Under the patronage of:
Organised by:
ECCM17 APP:
General Informationpage
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Automotive Forum 2016page
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About Munichpage
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Tourist Programmepage
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Guided Tours at Industrial Companiespage12
Social Programmepage
13
Venue Floor Planpage
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Exhibitor Planpage
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ECCM17 Sponsors and Exhibitorspage
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Organising Committeepage
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International Scientific Committeepage
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Plenary Speakerspage
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The ESCM Awardpage
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Keynote Speakerspage
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Programme at a Glancepage
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Scientific Programmepage
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Poster Showpage
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Authors Indexpage
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Download the ECCM17 App for free in your Appstore, Google Play, BlackBerry World or Windows Phone Store.
The App will guide you through the conference. Beside detailed information about
the congress and the latest programme, you can also find information about
guided tours at industrial companies, directions, helpful links and a list of all
authors, speakers, sponsors and exhibitors.
Create your own schedule, ask live questions during the sessions and
communicate with other attendees.
We will keep you up to date with any programme modifications and with special
events during the conference.
FREE WI-FI:
Connect to the ‘ECCM17’ Wi-Fi in your settings.
The landing page will automatically come up.
To use the Wi-Fi, please accept the GTC (general standard terms and conditions).
You are now ready to use the internet.
picture: shutterstock.de
2
CONTENTS
DEAR COLLEAGUE,
I am very pleased to welcome you to attend the seventeenth European Conference on Composite Materials
(ECCM17) to be held in the famous city of Munich (Germany) from June 26th to 30th, 2016.
ECCM is Europe‘s leading conference on composite materials. As such the Munich event will follow the long
tradition of the ECCM conference series with a wide scope of topics in composite technologies. The conference
attracts internationally renowned scientists and engineers in the field of aerospace, automotive and
mechanical engineering and will bring together the scientific and the application-oriented world.
Prof. Dr.-Ing. Klaus Drechsler
Technical University Munich, Institute for Carbon
Composites LCC
MAI Carbon, Officer President of the board
An attractive background programme will be arranged to complement the interesting presentations and
discussions. For the first time a special evening event will be organized for PhD students. Special attention is
given to the social programme to obtain the maximum benefit from the beauty of Munich and Bavaria.
Fraunhofer ICT Functional Lightweight Design FIL,
Augsburg
The conference is organised by the Institute for Carbon Composites of the Technical University Munich
(TUM) and the Leading-Edge Cluster MAI Carbon, under the patronage of the European Society for Composite
Materials (ESCM). TUM is one of Europe’s top universities. It is committed to excellence in research and
teaching, interdisciplinary education and the active promotion of promising young scientists. MAI Carbon is
funded by the Federal Ministry of Education and Research and consists of companies, training and research
facilities, as well as supporting organisations, which are active within the technological field of carbon-fibre
reinforced plastics in the region of Munich-Augsburg-Ingolstadt (MAI).
We are looking forward to welcoming the world’s composite community in Munich.
Sincerely,
Prof. Dr.-Ing. Klaus Drechsler
3
4
GENERAL INFORMATION
OPENING HOURS
CASH MACHINES / ATM
SUN
26.06.
MON
27.06.
TUE
28.06.
WED
29.06.
THUR
30.06.
Entry time Participants
16:00
07:45
08:00
08:00
08:00
Closing time Participants
20:00
22:00
20:00
19:30
18:00
The Messe München features cash machines. One of them is operated by ReiseBank
(Travel Bank) in the West Entrance, ground floor and another one you will find at the
Northwest Entrance (in the passageway to the parking garage).
INTERNET ACCESS / WIFI
Connect to the ‘ECCM17’ Wi-Fi in your settings.
The landing page will automatically come up.
To use the Wi-Fi, please accept the GTC (general standard terms and conditions).
You are now ready to use the internet.
REGISTRATION
ECCM17 APP
Pre-registration in the ICM Munich will be from 16:00 to 20:00 on Sunday the 26th,
and on Monday morning from 08:00 to 08:30.
Also registration will be possible during the whole conference.
For registering please bring your confirmation of participation, which will be send to
you two weeks before the conference starts. It is possible to register other attendees
with this confirmation. Students need to show their student ID or Certificate of
Matriculation at the check-in.
Please note that you might still have to pay the conference fee. This is only possible
with cash (no credit card). There are cash machines on the exhibition grounds.
Please download the ECCM17 App for free in your Appstore, Google Play, BlackBerry
World or Windows Phone Store.
The App will guide you through the conference. Beside detailed information about the
congress and the latest programme, you can also find information about guided tours at
industrial companies, directions, helpful links and a list of all authors, speakers, sponsors and exhibitors.
Create your own schedule, ask live questions during the sessions and communicate
with other attendees.
We will keep you up to date with any programme modifications and with special events
during the conference.
CONFERENCE ADMISSION – DELEGATE BADGE
Admission to the ECCM17 is by badge only. Carrying the badge is mandatory for all participants. No one will be allowed admission to sessions or exhibition without a badge.
CERTIFICATE OF ATTENDANCE
CONGRESS SECRETARIAT
CATERING
MAI Carbon Clustermanagement GmbH
Project Manager: Stefan Steinacker,
Mobile: +49 160 97394230,
Email: stefan.steinacker@eccm17.org
Refreshments and lunch will be provided in the Foyer during the official coffee and
lunch breaks.
The registration desk will issue a certificate of attendance upon request.
5
GENERAL INFORMATION
CLOAKROOM / WARDROBE
ARRIVING BY PUBLIC TRANSPORTATION
The cloakroom / wardrobe is located in the registration area.
There is a fee of 2,- Euro per day. Only cash is accepted.
The Messe München and the ICM – International Congress Center Munich are directly
connected to the public transportation system, which is fast, reliable and environmentally friendly. Please leave the U2 subway line in the direction of Messestadt Ost at
Messestadt West.
EMERGENCY SERVICES
In case of an emergency, please contact the staff at the ICM.
OFFICIAL CONGRESS LANGUAGE
The official language is English. No simultaneous translation will be provided.
SMOKING POLICY
The ICM is a non-smoking facility.
SHOPS
Close to the ICM you will find the Riem Arcaden, one of Munichs biggest shopping-center.
Opening hours: Monday – Saturday 07:45 – 20:00
BUSINESS ROOMS / MEETING ROOMS TO RENT
You are looking for a possibility to link the conference with
a business meeting?
We offer a total of six meeting rooms each for up to 16 people, of which two rooms are
WITHOUT technical equipment. The four other meeting rooms are equipped with the
usual presentation equipment (projector, flipchart etc.). We offer the rooms in time slots
adapted to the programme.
Of course you can book the rooms over several time slots.
ECCM17 including CCeV Automotive Forum 2016
The rate per day is 500,- Euro.
The cost are 100,- Euro / Timeslot for meeting rooms WITHOUT technology
For Details take note of 'Programme at a Glance' (page 24-27):
TUE-4, WED-1, WED-2, WED-3
and
150,- Euro / Timeslot for meeting rooms WITH technology.
The prices include tax.
6
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ABOUT MUNICH
Munich is the capital city of Bavaria. Within the city limits, Munich has a population of more than 1.4 million, making it the third-most populous city in Germany.
Located at the river Isar in the south of Bavaria, Munich is famous for its beautiful architecture, fine culture, and the annual Oktoberfest beer celebration. Munich‘s cultural scene is second to none in Germany, with the museums even considered by some to outrank Berlin in quality. Many travellers to Munich are absolutely stunned by
the quality of the architecture. Although it was heavily damaged by allied bombing during World War II, many of its historic buildings have been rebuilt and the city centre appears mostly as it did in the late 1800s including its largest church, the Frauenkirche, and the famous city hall (Neues Rathaus).
Munich is a major international centre of business, engineering, research and medicine exemplified by the presence of two research universities, a multitude of smaller
colleges, headquarters of several multinational companies and world-class technology and science museums like the Deutsches Museum and BMW Museum. It is Germany‘s most prosperous city and makes it repeatedly into the top 10 of global quality-of-life rankings. Munich‘s ability to stay at the forefront of technological developments and maintain its cultural heritage is often summarized in the characterisation as a city of „laptop and lederhosen“.
SIGHTS & ATTRACTIONS
Munich offers visitors many sights and attractions. There is something for everyone, no matter if you are seeking arts and culture, shopping, fine dining, nightlife, sport events or
Bavarian beer hall atmosphere. The listings in this section are just some highlights of things that you should see if you are visiting Munich.
PALACES AND CASTLES
Schloss Nymphenburg in Neuhausen & Nymphenburg is a baroque palace which served as summer residence of the Bavarian kings. The palace was commissioned by the prince-electoral couple Ferdinand Maria and Henriette Adelaide of Savoy to the designs of the Italian architect Agostino Barelli in 1664. Joseph Effner redesigned the facade of the
centre pavilion in French baroque style in 1716. In 1826 Leo von Klenze removed its gables with the electoral coat of arms and created an attic decoration directly under the roof
instead. The palace is surrounded by a spendid 200-hectare (490-acre) park. The palace is open to the public and also houses several museums such as the Marstallmuseum, the
Porzellanmuseum München, the Museum Mensch und Natur and the Erwin von Kreibig-Museum.
Residenz is in the City Center, between Odeonsplatz and Max-Joseph-Platz. Built in 1385, the Residenz was originally a small moated castle, and was gradually expanded by the
Wittelsbach rulers who used it until 1918 as their residence and seat of government. The Residenz consists of three parts the Königsbau, the Alte Residenz and the Festsaalbau.
A wing of the Festsaalbau contains the Cuvilliés Theatre since the reconstruction of the Residenz after World War II. It also houses the Herkulessaal (Hercules Hall), the primary
concert venue for the Bavarian Radio Symphony Orchestra. Highlights of the Residenz are the Renaissance Antiquarium, the Baroque Ancestral Gallery and the royal regalia of
Bavaria inside the treasury.
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MUSEUMS AND GALLERIES
Bavaria’s kings have transformed Munich into Germany‘s art capital in the 1800s and it is still home to world class collections and museums. The Kunstareal in Maxvorstadt includes 16 museums, 40 galleries and 7 art schools. Munich is also a global center of research and engineering. Therefore, it is not surprising that the city hosts several museums
presenting vast science and technology-related exhibitions.
Pinakotheken — These are three very impressive art museums. The Alte Pinakothek features 15-18th century religious paintings, the Neue Pinakothek 19-20th century Impressionist and Expressionist art and the Pinakothek der Moderne has 20th century paintings, modern art, design and architecture sections.
Deutsches Museum — The Deutsches Museum is probably the largest technical museum in the world. It has a hands-on, interactive section for natural science, engineering, construction, etc. as well as an impressive collection of full-scale aerospace vehicles and cars. Plan lots of time if you want to try and see everything, even the full eight open hours of
the day is barely enough to even get around to all the exhibits, much less spend a significant amount of time in them. There is also a major transportation exhibition branch located near Theresienhöhe (above the Oktoberfest grounds), and another one housing the extensive airplane collection in Oberschleißheim near Schloss Schleißheim.
Nymphenburg
This page contains texts from http://wikitravel.org/en/Munich. Some information has been adapted.
picture: shutterstock.de
Please check www.wikitravel.org/en/Munich for a detailed list of sights and attractions!
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TOURIST PROGRAMME
Enjoy your stay in Germany. Munich itself and its surrounding offers a plenty of possibilities to get more in touch with history and culture.
Please have a look at our tourist partner programme and book by yourself on: www.stadtrundfahrten-muenchen.de/en/homepage
OUR RECOMMENDATIONS
Neuschwanstein & Linderhof (Tour 16)
The Royal Castles Neuschwanstein and Linderhof
Hidden in the seclusion of the mountains King Ludwig II built two of his dream castles: Neuschwanstein and Linderhof. This excursion shows you two extraordinary castles, both
testifying to the vision of Bavaria’s fairytale King. Short shopping stop in Oberammergau. Approx. 4 hours time to visit Neuschwanstein and for lunch.
A comprehensive visit of Linderhof with its fantastic grotto and moorish pavillon offers Tour 15.
Highlights: Oberammergau, Palace of Neuschwanstein and Palace of Linderhof
www.stadtrundfahrten-muenchen.de/en/day_trips/angebot/neuschwanstein-1
Salzburg and Lake District (Tour 12)
Walk in the footsteps of Wolfgang Amadeus Mozart
Driving south towards Austria, we pass Bavaria´s largest lake, the Chiemsee. In Salzburg, the city of Mozart, there is enough time for shopping and sightseeing on your own in
the picturesque old town. Afterwards we drive through the scenic Lake District where the Sound of Music movie was filmed to the town of St. Wolfgang with the famous White
Horse Inn. Then a one-way boat ride on Lake Wolfgang takes us to our bus waiting for us on the other side of the lake for our drive back to Munich.
Passports are required to enter Austria!
Highlights: Salzburg Mozart, Weißes Rössl and Lake District
www.stadtrundfahrten-muenchen.de/en/day_trips/angebot/salzburg_and_lake_district
Zugspitze (Tour 14)
Top of Germany
After visiting Ettal Monastery, we drive to Garmisch-Partenkirchen and on to Eibsee where we take the cablecar to the summit of the Zugspitze (9.788 ft.).
On a clear day you can see over a thousand Bavarian, Austrian, Swiss and Italian mountain peaks. Descent by cogwheel train.
Highlights: Zugspitze and Kloster Ettal
www.stadtrundfahrten-muenchen.de/en/day_trips/angebot/zugspitze-1
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The Royal Castle of Herrenchiemsee (Tour 09)
The Bavarian Versailles
On the largest of the Bavarian lakes, Chiemsee, we take a boat ride to the Herreninsel. Here you visit Ludwig’s II. castle, a replica of the palace of Versailles.
We continue by boat to Fraueninsel. Time to visit the Benedictine church and a walk on the island.
Highlights: Chiemsee, Herreninsel, Fraueninsel and Royal Castle Herrenchiemsee
www.stadtrundfahrten-muenchen.de/en/day_trips/angebot/the_royal_castle_of_herrenchiemsee
Linderhof (Tour 15)
Salzburg
picture: 123rf.de
Neuschwanstein
picture: shutterstock.de
The magical palace of Linderhof and the Passion Play town of Oberammergau
Two of the most precious jewels of Bavaria can be seen during this excursion. The dream castle Linderhof built by King Ludwig II in French rococo style with its fantastic grotto
and the moorish pavillon can be visited during our two hours stay; lunch. We travel on to Oberammergau, world-famous for its Passion Plays, the woodcarvers and the richly painted houses (Lüftl-paintings). Time for sightseeing, shopping and a coffee break.
Highlights: Palace of Linderhof and Oberammergau
www.stadtrundfahrten-muenchen.de/en/day_trips/angebot/linderhof-1
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GUIDED TOURS AT INDUSTRIAL COMPANIES
Please have a look at our website to book your tour.
www.eccm17.org/visit-munich.html
Please note that the number of participants is limited.
Additional transportation fees must be paid directly on the bus (10,- Euro).
picture: Fraunhofer Institute for Chemical Technology (ICT)
The following partners can be visited:
• KraussMaffei, Munich
• Automation W+R, Munich
• Institute for Carbon Composites of the Technical University Munich (TUM/LCC)
• Kuka Roboter, Augsburg
• Premium Aerotec, Augsburg
• German Aerospace Center (DLR), Augsburg
• Fraunhofer Institute for Chemical Technology (ICT), Augsburg
• Tour around the Ludwig-Bölkow-Campus (e.g. Munich Composites), Munich
• Chair of Non-destructive Testing, Technical University Munich (TUM/ZFP)
• Chair „Experimentalphysik II“, University of Augsburg
picture: KraussMaffei, Munich
The participants of the ECCM17 will have the opportunity to take a look behind the
scenes. This means that they have the chance to visit some industrial companies
and institutes in and around Munich. The tours will be planned and offered by the
ECCM17 organizing team/committee. All guided tours will be held in English.
picture: Premium Aerotec
All tours start in front of the Congress Center Munich (ICM) and return to that point.
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SOCIAL PROGRAMME
WELCOME RECEPTION
The Welcome Reception for the ECCM17 will be held at the International Congress Center Munich (ICM) on Monday, June 27, 2016 at 18:30 o’clock. In this context there will also
be a ‘Round Table’ of managers from the German composites industry (19:30 o‘clock). This activity is included for all conference participants.
PhD STUDENT EVENT
This is a special evening event for PhD students – AND ALL OTHERS, of course! It is conceived as a platform to support the students in building up their network and offering
space for discussions. The PhD event will take place at one of the famous beer garden in Munich on Tuesday, June 28, 2016 at 20:00 o’clock. Every registered student will
get two vouchers for either a drink or 4,- Euro prize decree on any dish. You will receive the vouchers and a bag from our sponsor xC Consultans at the beer garden.
Please show you participation badge and your Student ID.
PhD’s: Please feel invited to use this opportunity to expand your network
and to get in contact with others.
Franziskaner Garten, Friedenspromenade 45, 81827 Munich
GALA EVENING
Franziskaner Biergarten
The Hofbräuhaus is well known, famous and one of Munich’s oldest breweries. The historic setting
was built by Duke Wilhelm V. in 1589 and is still used today for celebrations of all kinds, as it had
been in previous decades. A special feature of the Festival Hall’s architecture is the large, vaulted
ceiling with its frescos of Bavarian coats of arms. Since it rests on the outside walls, the vault was
built without columns despite its enormous weight. The large arched windows are flanked by very
old charter flags of all Bavaria’s administrative districts. Equally decorative are the frescos on
both rear walls with balustrades reminiscent of Venetian palazzos. Three 32-light chandeliers provide a harmonious finishing touch, underscoring the hall’s splendor. The Festival Hall represents a
perfect blend of traditional and modern design.
Hofbräuhaus Munich
picture: BBMC Tobias Ranzinger
As a special evening event of ECCM17 the gala dinner takes place on Wednesday, June 29, 2016 at
19:30 o’clock in the historic Festival Hall of the traditional Hofbräuhaus Munich. The participants
can expect a delicious dinner, accompanied by jazz music as well as a typically Bavarian show act.
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VENUE FLOOR PLAN
MEETING ROOMS
LAUF 01
Display
Display
LAUF 02
BIA
NAP
BUD STO
VEN
SEV
STG
BRI
BOR
ING
RHO
BRU
LON
AUG
ATH
PAUF 01
Foyer ground floor
3x3 Multiwand
Foyer upper floor
Multiwand 4x4 UK 3,90m
3 Mu
3x
an
ltiw
PAUF 09
2nd floor
Multiwand 4x4 UK 3,90m
d
m
au
ltsr
tha
m
fen
rau roo
he
ak
36
tsc bre
1.3
lme er
ret
Do
erp
Int
m²
34
0.336
10m² | 4PAX
0.335
10m² | 4PAX
5
0.334
1.33
10m² | 4PAX
4
1.33
3
1.33
2
1.33
0.304
Room ID
Name
Room ID
Name
MUC
Munich
BRI
Brighton
SEV
Seville
NAP
Naples
VEN
Venice
LON
London
BUD
Budapest
BOR
Bordeaux
STO
Stockholm
STG
Stuttgart
BIA
Biarritz
AUG
Augsburg
RHO
Rhodes
ING
Ingolstadt
BRU
Bruges
ATH
Athens
10m² | 4PAX
0.305
24m² | 12PAX
PAUF07
ENTRANCE
MUC
m
au
ltsr
tha
fen
m
rau roo
ak
03 tsche
bre
1.3
lme er
ret
Do
erp
Int
m²
34
4
1.30
5
1.30
6
1.30
7
1.30
PAUF08
14
ground floor
1st floor
EXHIBITOR
3x3 Multiwand
Ladezone Foyer Nord
Anlieferung
ICM
ma
e
anc
ntr
in e
Auditorium
Saal 01
15
ECCM17 SPONSORS AND EXHIBITORS
The Organising Committee gratefully acknowledges the support and participation of the following companies:
SPONSORS:
EXHIBITORS:
16
ORGANISING COMMITTEE
Prof. Dr.-Ing. Klaus Drechsler (General Chair)
Prof. Dr. techn. Roland Hinterhölzl (Technical Programme Chair)
MAI Carbon Cluster Management GmbH
Technical University Munich / Institute for Carbon Composites
Anna-Lea Glocker
Bernhard Horn
Annett Fitzner
Christoph Ebel
Denny Schüppel
Daniel Teufl
Gerd Falk
Lucy Hehl
Rita Fritsch
Sabine Pallagi
Stefan Steinacker
Sven Blanck
Tjark von Reden
Elisabeth Ladstätter
Hannes Körber
Jakob Weiland
Marina Plöckl
Peter Kuhn
Philipp Fahr
Roland Hinterhölzl
Carbon Composites e.V.
Swen Zaremba
Bernhard Jahn
Tobias Harbers
Doris Karl
Tobias Wehrkamp-Richter
Katharina Lechler
Ulrich Mandel
Lydia Raab
Veronika Radlmaier
17
INTERNATIONAL SCIENTIFIC COMMITTEE
18
Albert Turon
Dan Zenkert
Janet Lees
Markus Wolfahrt
Silvestre Pinho
Alberto Barroso
Daniel Stefaniak
Janice Barton
Martin Gurka
Simon Bickerton
Alex Skordos
Daniel Wehner
Javier Llorca
Martin Schagerl
Soraia Pimenta
Alexander Bismarck
David Becker
Jean-Luc Bailleul
Michael Greisel
Stefan Albrecht
Alexander Schwingenschlögl
Elena Correa
Jens Ridzewski
Michael Heine
Steffen Stelzer
Alfredo Guemes
Elisabeth Ladstätter
Jesús Justo
Michael Wisnom
Stepan Lomov
Alison McMillan
Emile Greenhalgh
Joachim Hausmann
Michele Zappalorto
Steven Le Corre
Alma Hodzic
Emmanuelle Abisset-Chavanne
Jochen Töpker
Nicolas Boyard
Swen Zaremba
Anastasios P. Vassilopoulos
Enrique Graciani
Johann Kastner
Niels Modler
Tamas Havar
Andrea Bernasconi
Ewald Fauster
José Reinoso
Pascal Hubert
Thomas Gries
Andrea Hohmann
Fabrice Pierron
Josep Costa
Pascal Joubert Des Ouches
Thomas Heber
Andrew Rhead
Federico París
Judith Moosburger-Will
Patrick de Luca
Thomas Kruse
Antonio Blázquez
Francesco Aymerich
Julien Berthe
Patrick Fernberg
Tim Osswald
Axel Seifert
Francisco Chinesta
Karl Schulte
Paul Robinson
Tjark von Reden
Axel von Hehl
Frank Balle
Kim Kose
Pedro Camanho
Urs Meier
Bent F. Sørensen
Gary Leeke
Klaus Drechsler
Pere Maimi
Vadim Silberschmidt
Bodo Fiedler
Gerald Pinter
Kunal Masania
Peter Hine
Valter Carvelli
Bronwyn Fox
Geraldine Oliveux
Larissa Gorbatikh
Peter Middendorf
Vassilis Kostopoulos
Carlos Daniel González
Gergely Czél
Lars Herbeck
Peter Mitschang
Véronique Michaud
Christian Grosse
Giangiacomo Minak
Leif Asp
Philipp Höfer
Volker Altstädt
Christian Hochard
Guijun Xian
Lorenzo Iannucci
Philippe Boisse
Wim VanPaepegem
Christian Weimer
Hannes Körber
Luigi Sorrentino
Philippe Olivier
Yentl Swolfs
Christoph Burgstaller
Heinrich Timm
Luisa Medina
Prasad Potluri
Yordan Kyosev
Christoph Greb
Heinz Pettermann
Maciej Wysocki
Ralf Schledjewski
Christophe Binetruy
Helmut Rapp
Maik Gude
Richard Butler
Clara Schuecker
Igor Emri
Marc Kreutzbruck
Richard Degenhardt
Claudio S. Lopes
Ignaas Verpoest
Marc Siebert
Robert Ilg
Clemens Dransfeld
Irene F Villegas
Marek Kozlowski
Roland Hinterhölzl
Costas Galiotis
Ismet Baran
Marino Quaresimin
Sébastien Comas-Cardona
Czigany Tibor
Jacques Lamon
Markus Sause
Sergei Mileiko
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PLENARY SPEAKERS
Ignaas Verpoest
Department of Materials Engineering, Katholieke Universiteit Leuven, Belgium
Prof. Ignaas Verpoest got a Masters Degree (1972) and a PhD-degree (1982) in Materials Engineering at the Katholieke Universiteit Leuven (Belgium). As a full professor (from 1990 till 2013) he was guiding a group which consisted (average of last 5
years) of 8 postdoc researchers and 25 PhD-students, carrying out research in the
areas of mesomechanics of (textile based) composites, nano-engineered composites,
natural fibre reinforced (bio)polymers and advanced production methods for composites. He is the author of more then 310 journal papers, about 500 conference
papers and 3 books, and holds 15 patents. Since September 2013, Prof. Verpoest is
emeritus professor at KU Leuven. Prof. Verpoest is holder of the Toray Chair in Composite Materials at KU Leuven,
and chairman of the European Scientific Committee of CELC, the European Confederation on Flax and Hemp. He
was President of the European Society for Composite Materials (ESCM), and of the International Committee on
Composite Materials (ICCM). He was chairman of the materials research Centre at KU Leuven, and is member of
the Royal Flemish Academy of Belgium for Science and Art. Prof. Verpoest won several awards, amongst others
the Descartes Prize for Science Communication of the European Commission (2004), the International Fellowship of the Society for the Advancement of Materials Processing and Engineering (SAMPE, 2009) and of the International Committee on Composite Materials (ICCM,2009). In 2014, he was awarded the ‘Medal of Excellence
in Composite Materials’ of the University of Delaware (USA). He is also co-founder and board member of the
company Econcore, worldwide producer of innovative honeycomb cores.
Gerd Wingefeld
SGL CARBON SE, Germany
Dr. Gerd Wingefeld has been a member of the SGL Carbon SE Board of Management
since October 1, 2008. As Chief Technology Officer he is responsible for Technology &
Innovation, Environment, Health & Safety Affairs (EHSA), Purchasing, SGL Excellence
and Engineering. Dr. Wingefeld was born on January 21, 1958 in Giessen. After finishing his Masters degree in Chemistry at the Giessen University, he also obtained his
PhD there in 1984. His career began with research projects focused on materials at the
Hoechst AG Research Center at the end of 1984. After assuming different responsibilities within Celanese, which split off from Hoechst AG, he moved to SGL Group in 2002 where he first worked in
various international management functions in the fields of production as well as technology development. Before
he joined the Board of Management of SGL Carbon SE in 2008 he was responsible for the Business Unit Graphite
Specialties and the Business Area Graphite Materials & Systems. Dr. Wingefeld is married and has two children.
Wednesday 29 June at 9:00 – Plenary Lecture 3:
COMPOSITE MATERIAL SOLUTIONS: PROGRESS OF THE PAST, SOLUTIONS OF TODAY,
CONCEPTS FOR TOMORROW
Monday 27 June at 9:00 – Plenary Lecture 1:
Tony Kelly Lecture: COMPOSITES RESEARCH: INSPIRED BY PEOPLE, CHALLENGED BY NATURE
The Tony Kelly lecture will be held the first time in the history of the
ECCM in honor of Tony Kelly and recognizes the extraordinary contributions of the assigned plenary speaker to the field of composites.
Thomas Wolff
Technology Development CFRP, BMW AG, Germany
Dr.-Ing. Thomas Wolff studied Mechanical Engineering at RWTH Aachen University with
plastics processing as major subject. From 1995 to 2000 he was on the scientific staff
at the Institute of Plastics Processing (IKV) at RWTH Aachen University. Dr. Wolff joined
the BMW Group in 2000 as CAE engineer in the Exterior Development Department.
After managing different predevelopment projects and series projects Dr. Wolff was
member in the project i team since 2008. During the following 4 years he was responsible for the i3 exterior technology development and the setup of the production system.
2012 Dr. Wolff became head of exterior projects at the exterior inhouse production.
Since 2014 he is head of the CFRP technology development department.
Tuesday 28 June at 9:00 – Plenary Lecture 2:
PROCESS CHAINS OF COMPOSITE TECHNOLOGIES FOR AUTOMOTIVE LIGHTWEIGHT DESIGN
20
Christian Weimer
AIRBUS Group, Germany
Since more than two decades Dr. Christian Weimer has done research in the field
of carbon fibre reinforced composites. He started at the University of Sydney and
the Institute for Composite Materials (IVW) covering topics such as preforming and
stitching technologies. In 2003 he joined Airbus Helicopters to become team leader
and senior expert in new composite production technologies. At Airbus Group Innovations Dr. Weimer is currently Head of Domain Composites Materials & Process
leading research for the different Airbus Divisions, including commercial aircraft,
helicopters as well as defence and space. Being application driven Dr. Weimer is
actively promoting entrepreneurship. In scientific terms Dr. Weimer is looking back
to 20 years of research in the field of composite technologies, leading to more than 50 international presentations and publications. Several of his more than 25 patent applications have found its way into application.
Thursday 30 June at 9:00 – Plenary Lecture 4:
THE FUTURE COMPOSITE MATERIALS CHALLENGE IN AERONAUTICS
THE ESCM AWARD
The Albert Cardon Lecture is the prestigious plenary lecture for the recipient of this year’s ESCM Award that recognizes the accomplishments
of this young researcher.
Juan J. Vilatela
IMDEA Materials Institute, Madrid, Spain
Dr. Juan J. Vilatela has a BSc in Physics Engineering from UIA, Mexico (2005) and a
PhD from the Department of Materials Science and Metallurgy of the University of
Cambridge (2009). In 2011 he founded the Multifunctional Nanocomposites Group
(http://www.materials.imdea.org/groups/mng/) at IMDEA Materials Institute. His
group’s work is largely focused on the development of macroscopic materials made
up of nanobuilding blocks in a way that the unique properties at the nanoscale are
preserved through the assembly process and a new generation of high-performance
engineering materials is produced. Dr. Vilatela was involved in early developments
of a process to make continuous macroscopic fibres made up of CNTs, at Cambridge. Later he took part in
the transfer of this technology to industry. His more recent work includes studying hierarchical structures
by advanced X-ray techniques, reinforcement at multiple length-scales and the electrochemical interactions
of CNT fibres with liquids and polymers. Dr. Vilatela’s research has helped establish the unique combination
of properties of CNT fibres, particularly for multifunctional composites that can store energy or have sensing
functions. He is the author of around 36 papers (> 850citations), 6 patents (2 industrially exploited) and has
been awarded the “Juan de la Cierva” and “Ramón y Cajal” fellowships by the Spanish Ministry of Economics.
He has coordinated several European projects, industrial contracts (e.g. Airbus) and is currently the recipient
of an ERC Starting Grant to develop structural energy harvesting composite materials. Since 2014 he is an
associate lecturer at the Carlos III University.
ICM Munich
picture: Messe München GmbH
Thursday 30 June at 15:00 – Plenary Lecture 5:
Albert Cardon Lecture: MULTIFUNCTIONAL COMPOSITES WITH MACROSCOPIC CNT FIBRES
21
KEYNOTE SPEAKERS
Presenter
Institution
Title
Room
Monday 27 June, 14:10-14:50
Francisco Chinesta
École Centrale de Nantes
ADVANCED MODELING AND REAL TIME SIMULATION OF COMPOSITES MANUFACTURING
PROCESSES: REALIZING TECHNOLOGICAL DREAMS
Munich (MUC)
Stepan Lomov
Katholieke Universiteit Leuven
MULTI-SCALE MODELLING OF SPATIAL VARIABILITY IN TEXTILE COMPOSITES:
UNCERTAINTY QUANTIFICATION BASED ON EXPERIMENTAL DATA OF INTERNAL GEOMETRY
Biarritz (BIA)
Jinson Leng
Harbin Institute of Technology
ACTIVE DEFORMABLE COMPOSITE STRUCTURES: OPPORTUNITIES AND CHALLENGES
Naples (NAP)
Gerald Pinter
Montanuniversität Leoben and
Polymer Competence Center Leoben
ADVANCED TECHNIQUES FOR THE CHARACTERIZATION OF FATIGUE IN SHORT AND
CONTINUOUS FIBRE REINFORCED POLYMER MATRIX COMPOSITES
Stuttgart (STG)
Tuesday 28 June, 14:10-14:50
Pedro Camanho
University of Porto
ANALYSIS MODELS FOR POLYMER COMPOSITES ACROSS DIFFERENT LENGTH SCALES
Munich (MUC)
Markus G. R. Sause
University of Augsburg
ADVANCES IN IN-SITU MONITORING OF FIBER REINFORCED COMPOSITES
Biarritz (BIA)
Leif Asp
Chalmers University of Technology
NEXT GENERATION MULTIFUNCTIONAL COMPOSITES
Naples (NAP)
Peter Mitschang
Universität Kaiserslautern and
INDUCTION WELDING - A FLEXIBLE TECHNOLOGY FOR VARIOUS APPLICATIONS
Institut für Verbundwerkstoffe GmbH
Stuttgart (STG)
Wednesday 29 June, 14:10-14:50
Silvestre Pinho
Imperial College London
MECHANICS OF COMPOSITES: FROM NANO TO MACRO AND FROM SIMULATION TO ACTUALLY Munich (MUC)
ENGINEERING NEW MICROSTRUCTURES
Alexander Bismarck
and Paul Robinson
Imperial College London and
University of Vienna
EXPLOITING COMPOSITE INTERPHASES: CONTROLLABLE STIFFNESS,
SHAPE-MEMORY AND REPAIR
Biarritz (BIA)
Paolo Ermanni
ETH Zürich
MULTIFUNCTIONAL COMPOSITE STRUCTURES FOR MORPHING APPLICATIONS
Naples (NAP)
Pascal Hubert
McGill University Montreal
TOWARDS SUSTAINABLE MANUFACTURING OF COMPOSITE MATERIALS
Stuttgart (STG)
Thursday 30 June, 14:10-14:50
22
Philippe Boisse
Institut National des Sciences
Appliquées Lyon
COMPOSITE FORMING SIMULATIONS AT MACRO AND MESO SCALES
Munich (MUC)
Bent F. Sørensen
Technical University of Denmark
CHARACTERIZING DELAMINATION RESISTANCE IN TERMS OF MIXED MODE COHESIVE LAWS
Biarritz (BIA)
Hubert Jäger
Technische Universität Dresden
CARBON FIBRES - FROM HYPE TOWARDS REALITY FOR FUTURE LIGHTWEIGHT CONCEPTS
Naples (NAP)
Volker Altstädt
University of Bayreuth
THERMOPLASTIC LIGHTWEIGHT STRUCTURES - TRENDS AND DEVELOPMENTS TOWARDS
SERIAL PRODUCTION
Stuttgart (STG)
RTM Technology
Structural and semi-structural components
such as underbody structures, side frames
or seat structures
www.kraussmaffei.com
Wet molding RTM Technology
Semi-structural components
made of recycled carbon fibers,
e. g. hybrid components
Surface RTM Technology
Fiber-reinforced, paintable surfaces
such as roof elements, door inner
panels, trunks or engine hoods
IMC Technology
Fiber-reinforced, structural components such as front ends, mounting
supports, instrument panel carriers
FiberForm Technology
Continuous fiber-reinforced components
such as crash elements, B-pillar
reinforcements or seat structures
Fiber composite solutions
for advanced lightweight components
Engineering Passion
PROGRAMME AT A GLANCE
Munich
(MUC)
Budapest
(BUD)
Stockholm
(STO)
Biarritz
(BIA)
Rhodes
(RHO)
Bruges
(BRU)
Brighton
(BRI)
Naples
(NAP)
London
(LON)
Bordeaux
(BOR)
Stuttgart
(STG)
Augsburg
(AUG)
Ingolstadt
(ING)
8:30
9:00
Opening Ceremony
9:00
9:50
Plenary Lecture 1 - Tony Kelly Lecture (MUC) by Ignaas Verpoest, Katholieke Universiteit Leuven, Belgium: COMPOSITES RESEARCH: INSPIRED BY PEOPLE, CHALLENGED BY NATURE
MON-1
11:00
11:00
MON-2
MON-3
15:00
16:20
3.04
Delamination (1/4)
3.23
Maintainance and
Repair
(1/2)
3.01
Fracture
and
Damage Micromechanics
(2/8)
3.07
Thin Ply
Composites (2/3)
3.06
Textile
Composites (2/6)
3.04
Delamination (2/4)
3.21
Effects of
Manufacturing
Effects
(EoE)
(1/2)
3.11
Dynamic
Loading
- Impact,
Crash,
Blast
(2/6)
Industry
Session 1:
Presentations of the
Sponsoring and
Exhibiting
Companies
2.07
Graphene,
GrapheneBased
Composites (1/4)
2.06
Nano
Composites (1/7)
5.11
Upscaling
and Automation
(1/1)
5.08
Liquid
Composite
Molding
(1/2)
5.09 Manufacturing
Processes
for Thermoplastic
Composites (1/7)
4.02
X-ray
Computed
Tomography (1/2)
2.06
Nano
Composites (2/7)
5.07
Pultrusion and
Filament
Winding
(1/1)
5.08
Liquid
Composite
Molding
(2/2)
5.09 Manufacturing
Processes
for Thermoplastic
Composites (2/7)
4.02
X-ray
Computed
Tomography (2/2)
1.01
Aerospace
(1/6)
2.02
Polymer
Matrix
Materials
(2/4)
2.07
Graphene,
GrapheneBased
Composites (2/4)
6.01
Smart
Structures
(1/2)
1.01
Aerospace
(2/6)
Keynote lecture 2 (BIA) by Stepan V. Lomov,
Katholieke Universiteit Leuven, Belgium:
MULTI-SCALE MODELLING OF SPATIAL VARIABILITY IN TEXTILE COMPOSITES: UNCERTAINTY
QUANTIFICATION BASED ON EXPERIMENTAL DATA
OF INTERNAL GEOMETRY
3.01
Fracture
and
Damage Micromechanics
(3/8)
3.21
Effects of
Manufacturing
Effects
(EoE)
(2/2)
3.07
Thin Ply
Composites (3/3)
3.06
Textile
Composites (3/6)
3.04
Delamination (3/4)
3.11
Dynamic
Loading
- Impact,
Crash,
Blast
(3/6)
Industry
Session 1:
Presentations of the
Sponsoring and
Exhibiting
Companies
2.02
Polymer
Matrix
Materials
(3/4)
Keynote lecture 3 (NAP) by Jinson Leng,
Harbin Institute of Technology, China:
ACTIVE DEFORMABLE COMPOSITE STRUCTURES:
OPPORTUNITIES AND CHALLENGES
Keynote lecture 4 (STG) by Gerald Pinter, Montanuniversität Leoben and Polymer Competence
Center Leoben, Austria: ADVANCED TECHNIQUES
FOR THE CHARACTERIZATION OF FATIGUE IN
SHORT AND CONTINUOUS FIBRE REINFORCED
POLYMER MATRIX COMPOSITES
2.07
Graphene,
GrapheneBased
Composites (3/4)
2.06
Nano
Composites (3/7)
5.06
Automated
Placement
Technologies (1/5)
5.02
Process
Simulation II
- Curing &
PID (1/2)
5.09
Manufacturing
Processes
for Thermoplastic
Composites (3/7)
4.04
Microand Nano-Scale
Test
Methods
(1/1)
6.01
Smart
Structures
(2/2)
1.01
Aerospace
(3/6)
2.06
Nano
Composites (4/7)
5.06
Automated
Placement
Technologies (2/5)
5.02
Process
Simulation II
- Curing &
PID (2/2)
5.09
Manufacturing
Processes
for Thermoplastic
Composites (4/7)
4.01
Full-Field
Methods
(1/3)
6.03
Structural
Power
Composites (1/1)
1.01
Aerospace
(4/6)
Coffee Break
MON-4
18:30
18:30
2.02
Polymer
Matrix
Materials
(1/4)
Keynote lecture 1 (MUC) by Francisco Chinesta,
École Centrale de Nantes, France:
ADVANCED MODELING AND REAL TIME SIMULATION OF COMPOSITES MANUFACTURING PROCESSES: REALIZING TECHNOLOGICAL DREAMS
16:50
16:50
19:00
3.11
Dynamic
Loading
- Impact,
Crash,
Blast (1/6)
Lunch Break
14:50
20:00
3.06
Textile
Composites (1/6)
14:10
14:10
16:20
3.07
Thin Ply
Composites (1/3)
Athens
(ATH)
Coffee Break
13:10
13:10
3.01
Fracture
and
Damage Micromechanics
(1/8)
11:30
11:30
MONDAY
Venice
(VEN)
End
10:00
24
Seville
(SEV)
Start
3.01
Fracture
and
Damage Micromechanics
(4/8)
3.03
Fracture
and
Damage Laminate
Level
(1/5)
3.06
Textile
Composites (4/6)
3.04
Delamination (4/4)
3.15 Analysis and
Design of
Damage
Tolerant
Composite
Structures
(1/2)
3.11
Dynamic
Loading
- Impact,
Crash,
Blast
(4/6)
ESCM
Council
Meeting 1
2.02
Polymer
Matrix
Materials
(4/4)
2.07
Graphene,
GrapheneBased
Composites (4/4)
19:00
Speeches (MUC): Gerhard Müller, Senior Vice President Academic and Student Affairs Technical University of Munich, Germany
Franz Josef Pschierer, State Secretary in the Bavarian Ministry of Economic Affairs and Media, Germany
Herbert Zeisel, MinDirig. “Key Technologies for Growth” at the Federal Ministry of Education and Research, Germany
20:00
Round Table (MUC): THE RELEVANCE OF COMPOSITE MATERIALS FOR THE INDUSTRY AND GERMANY AS A BUSINESS LOCATION
Welcoming Reception
End
9:00
9:50
Munich
(MUC)
Venice
(VEN)
Budapest
(BUD)
TUE-1
11:00
3.01
Fracture
and
Damage Micromechanics
(5/8)
3.03
Fracture
and
Damage Laminate
Level
(2/5)
3.06
Textile
Composites (5/6)
3.05
Multiscale
Modeling
(1/5)
3.15 Analysis and
Design of
Damage
Tolerant
Composite
Structures
(2/2)
3.05
Multiscale
Modeling
(2/5)
3.14
Novel
Composite Microstructures:
Design
and/or
Prototyping (1/2)
TUE-2
3.01
Fracture
and
Damage Micromechanics
(6/8)
3.03
Fracture
and
Damage Laminate
Level
(3/5)
3.06
Textile
Composites (6/6)
Keynote lecture 5 (MUC) by Pedro Camanho,
University of Porto, Portugal:
ANALYSIS MODELS FOR POLYMER COMPOSITES
ACROSS DIFFERENT LENGTH SCALES
14:50
3.11
Dynamic
Loading
- Impact,
Crash,
Blast
(6/6)
Brighton
(BRI)
2.10
Environmental
Effects
(1/1)
2.09
Non-Polymer
Matrix
Composites (1/1)
Keynote lecture 6 (BIA) by Markus G. R. Sause,
University of Augsburg, Germany:
ADVANCES IN IN-SITU MONITORING OF FIBER
REINFORCED COMPOSITES
16:20
Naples
(NAP)
London
(LON)
Bordeaux
(BOR)
Stuttgart
(STG)
Augsburg
(AUG)
Ingolstadt
(ING)
Athens
(ATH)
2.06
Nano
Composites (5/7)
5.06
Automated
Placement
Technologies (3/5)
5.14
Manufacturing of
Short/
Long
Fiber
Composites (1/2)
5.09
Manufacturing
Processes
for Thermoplastic
Composites (5/7)
4.01
Full-Field
Methods
(2/3)
7.02
Recycling
of Fibres
and Composites
(1/5)
1.01
Aerospace
(5/6)
2.08
Fiber-Hybrid
Composites (1/1)
2.06
Nano
Composites (6/7)
5.06
Automated
Placement
Technologies (4/5)
5.14
Manufacturing of
Short/
Long
Fiber
Composites (2/2)
5.09
Manufacturing
Processes
for Thermoplastic
Composites (6/7)
4.01
Full-Field
Methods
(3/3)
7.02
Recycling
of Fibres
and Composites
(2/5)
1.01
Aerospace
(6/6)
Keynote lecture 7 (NAP) by Leif Asp, Chalmers
University of Technology, Sweden:
NEXT GENERATION MULTIFUNCTIONAL COMPOSITES
Keynote lecture 8 (STG) by Peter Mitschang,
Universität Kaiserslautern and Institut für Verbundwerkstoffe GmbH, Germany:
INDUCTION WELDING - A FLEXIBLE TECHNOLOGY
FOR VARIOUS APPLICATIONS
Poster Session 1
TUE-3
15:00
3.01
Fracture
and
Damage Micromechanics
(7/8)
3.03
Fracture
and
Damage Laminate
Level
(4/5)
3.18
Hybrid
Materials and
Structures
(1/4)
3.05
Multiscale
Modeling
(3/5)
16:20
3.14
Novel
Composite Microstructures:
Design
and/or
Prototyping (2/2)
3.12
Dynamic
Loading
- Vibration and
Damping
(1/1)
16:50
2.14
Foams,
Cellular
and
Lattice
Materials
(1/2)
2.04
Bio Composites
(1/6)
2.06
Nano
Composites (7/7)
5.06
Automated
Placement
Technologies (5/5)
5.12
Online
Process
Monitoring and
Controling
(1/3)
5.09
Manufacturing
Processes
for Thermoplastic
Composites (7/7)
4.05
Novel Test
Methods
and
Concepts
(1/2)
7.02
Recycling
of Fibres
and Composites
(3/5)
1.04
Renewable
Engergies
(1/1)
2.03
Interfaces
and
Interphases (1/3)
5.01
Process
Simulation I
- Draping
& LCM
(1/3)
5.12
Online
Process
Monitoring and
Controling
(2/3)
5.03
Experimental
Methods
for
Process
Characterisation
(1/3)
4.05
Novel Test
Methods
and
Concepts
(2/2)
7.02
Recycling
of Fibres
and Composites
(4/5)
1.02
GroundBased
Transportation
(1/4)
Coffee Break
16:50
18:30
Bruges
(BRU)
Lunch Break
TUE-4
TUESDAY
3.11
Dynamic
Loading
- Impact,
Crash,
Blast
(5/6)
14:10
14:10
16:20
Rhodes
(RHO)
Coffee Break
13:10
15:00
Biarritz
(BIA)
11:30
11:30
13:10
Stockholm
(STO)
Plenary Lecture 2 (MUC) by Thomas Wolff, BMW AG, Germany: PROCESS CHAINS OF COMPOSITE TECHNOLOGIES FOR AUTOMOTIVE LIGHTWEIGHT DESIGN
10:00
11:00
Seville
(SEV)
3.01
Fracture
and
Damage Micromechanics
(8/8)
3.03
Fracture
and
Damage Laminate
Level
(5/5)
3.18
Hybrid
Materials and
Structures
(2/4)
3.05
Multiscale
Modeling
(4/5)
3.02
Fracture
and
Damage
- Lamina
Level
(1/5)
3.09
High-Performance
Discontinuous
Fibre
Composites (1/1)
2.14
Foams,
Cellular
and
Lattice
Materials
(2/2)
2.04 Bio
Composites (2/6)
18:30
General Assembly (MUC)
20:00
PhD Student Event
Automotive Forum
Start
25
9:50
Seville
(SEV)
Venice
(VEN)
Budapest
(BUD)
Stockholm
(STO)
Biarritz
(BIA)
Rhodes
(RHO)
WED-1
3.02
Fracture
and
Damage
- Lamina
Level
(2/5)
3.22
Ductile
and Pseudo-ductile
Composites (1/4)
3.18
Hybrid
Materials and
Structures
(3/4)
3.10
Fatigue of
Composites (1/6)
3.20
Joining
and Joints
(1/6)
3.08
Short
Fibre Reinforced
Thermoplastics
(1/4)
3.05
Multiscale
Modeling
(5/5)
11:00
11:30
WED-2
WEDNESDAY
3.02
Fracture
and
Damage
- Lamina
Level
(3/5)
3.22
Ductile
and Pseudo-ductile
Composites (2/4)
3.18
Hybrid
Materials and
Structures
(4/4)
3.10
Fatigue of
Composites (2/6)
3.20
Joining
and Joints
(2/6)
3.08
Short
Fibre Reinforced
Thermoplastics
(2/4)
13:10
3.16
Fibre,
Resin and
Laminate
Design for
Optimized
Performance and
Manufacture (1/3)
14:10
Keynote lecture 9 (MUC) by Silvestre Pinho,
Imperial College London, UK:
MECHANICS OF COMPOSITES: FROM NANO TO
MACRO AND FROM SIMULATION TO ACTUALLY
ENGINEERING NEW MICROSTRUCTURES
14:50
16:20
WED-3
3.02
Fracture
and
Damage
- Lamina
Level
(4/5)
3.22
Ductile
and Pseudo-ductile
Composites (3/4)
3.17
Sandwich
Structures
(1/4)
3.10
Fatigue of
Composites (3/6)
3.20
Joining
and Joints
(3/6)
3.08
Short
Fibre Reinforced
Thermoplastics
(3/4)
3.20
Joining
and Joints
(4/6)
3.08
Short
Fibre Reinforced
Thermoplastics
(4/4)
Industry
Session 2:
Presentations of the
Sponsoring and
Exhibiting
Companies
16:50
WED-4
26
Stuttgart
(STG)
Augsburg
(AUG)
Ingolstadt
(ING)
Athens
(ATH)
2.04
Bio Composites
(3/6)
2.03
Interfaces
and
Interphases (2/3)
5.01
Process
Simulation I
- Draping
& LCM
(2/3)
2.03
Interfaces
and
Interphases (3/3)
5.01
Process
Simulation I
- Draping
& LCM
(3/3)
5.12
Online
Process
Monitoring and
Controling
(3/3)
5.03
Experimental
Methods
for
Process
Characterisation
(2/3)
4.03
Structural
Health
Monitoring and
Control
(1/3)
7.02
Recycling
of Fibres
and Composites
(5/5)
1.02
GroundBased
Transportation
(2/4)
2.12
Lightning
Strike,
Fire
Behavior
and Fire
Retardance/Resistance of
Composites (2/3)
5.03
Experimental
Methods
for
Process
Characterisation
(3/3)
4.03
Structural
Health
Monitoring and
Control
(2/3)
7.01
Sustainability Resource
Efficient
Technologies and
Supply
Chains
(1/1)
2.04 Bio
Composites (4/6)
1.02
GroundBased
Transportation
(3/4)
Keynote lecture 11 (NAP) by Paolo Ermanni,
ETH Zürich, Switzerland:
MULTIFUNCTIONAL COMPOSITE STRUCTURES
FOR MORPHING APPLICATIONS
Keynote lecture 12 (STG) by Pascal Hubert,
McGill University Montreal, Canada:
TOWARDS SUSTAINABLE MANUFACTURING OF
COMPOSITE MATERIALS
2.12
Lightning
Strike,
Fire
Behavior
and Fire
Retardance/Resistance of
Composites (3/3)
2.04
Bio Composites
(5/6)
2.01
Fibers
(1/4)
5.13
Additive
Manufacturing
(1/2)
1.05
Civil Engineering
(1/4)
5.04
Textile
Composites (1/2)
2.01
Fibers
(2/4)
5.13
Additive
Manufacturing
(2/2)
1.05
Civil Engineering
(2/4)
5.04
Textile
Composites (2/2)
4.03
Structural
Health
Monitoring and
Control
(3/3)
6.02
Self-Healing and
Bio-Inspired
Designs
(1/3)
1.02
GroundBased
Transportation
(4/4)
6.02
Self-Healing and
Bio-Inspired
Designs
(2/3)
1.03
Marine
(1/1)
Coffee Break
16:50
17:50
Bordeaux
(BOR)
Poster Session 2
16:20
19:30
2.12
Lightning
Strike,
Fire
Behavior
and Fire
Retardance/Resistance of
Composites (1/3)
Keynote lecture 10 (BIA) by Alexander Bismarck
and Paul Robinson, Imperial College London and
University of Vienna, UK and Austria:
EXPLOITING COMPOSITE INTERPHASES: CONTROLLABLE STIFFNESS, SHAPE-MEMORY AND REPAIR
15:00
16:20
London
(LON)
Lunch Break
14:10
15:00
Naples
(NAP)
Coffee Break
11:30
13:10
Brighton
(BRI)
Plenary Lecture 3 (MUC) by Gerd Wingefeld, SGL CARBON SE, Germany: COMPOSITE MATERIAL SOLUTIONS: PROGRESS OF THE PAST, SOLUTIONS OF TODAY, CONCEPTS FOR TOMORROW
10:00
11:00
Bruges
(BRU)
Automotive Forum
9:00
Munich
(MUC)
Automotive Forum
End
3.02 Fracture and
Damage
- Lamina
Level
(5/5)
3.22
Ductile
and Pseudo-ductile
Composites (4/4)
3.17
Sandwich
Structures
(2/4)
3.10
Fatigue of
Composites (4/6)
ESCM
Council
Meeting 2
2.04
Bio Composites
(6/6)
Gala Evening
Automotive Forum
Start
End
9:00
9:50
Munich
(MUC)
Budapest
(BUD)
Stockholm
(STO)
Biarritz
(BIA)
Rhodes
(RHO)
THU-1
3.13
Durability,
Ageing,
Creep,
Environmental
Effects
(1/2)
3.17
Sandwich
Structures
(3/4)
3.10
Fatigue of
Composites (5/6)
3.20
Joining
and Joints
(5/6)
3.19
Buckling
and
Stability
(1/2)
3.16
Fibre,
Resin and
Laminate
Design for
Optimized
Performance and
Manufacture (2/3)
11:30
11:30
13:10
3.13
Durability,
Ageing,
Creep,
Environmental
Effects
(2/2)
3.17
Sandwich
Structures
(4/4)
3.10
Fatigue of
Composites (6/6)
14:10
14:10
14:50
Bruges
(BRU)
Brighton
(BRI)
Naples
(NAP)
London
(LON)
Bordeaux
(BOR)
Stuttgart
(STG)
Augsburg
(AUG)
Ingolstadt
(ING)
Athens
(ATH)
2.11 High
Temperature
Polymer
Composites (1/2)
2.01
Fibers
(3/4)
5.05
Tailored
Preforms
(1/2)
2.01
Fibers
(4/4)
5.05
Tailored
Preforms
(2/2)
5.10
Machining
(1/2)
1.05
Civil Engineering
(3/4)
8.01
Composite Clusters and
Networks
(1/2)
6.02
Self-Healing and
Bio-Inspired
Designs
(3/3)
1.08
Industrial
Applications
(1/1)
5.10
Machining
(2/2)
1.05
Civil Engineering
(4/4)
8.01
Composite Clusters and
Networks
(2/2)
Coffee Break
THU-2
THURSDAY
11:00
13:10
Venice
(VEN)
Plenary Lecture 4 (MUC) by Christian Weimer, AIRBUS Group, Germany: THE FUTURE COMPOSITE MATERIALS CHALLENGE IN AERONAUTICS
10:00
11:00
Seville
(SEV)
3.20
Joining
and Joints
(6/6)
3.19
Buckling
and
Stability
(2/2)
3.16
Fibre,
Resin and
Laminate
Design for
Optimized
Performance and
Manufacture (3/3)
2.11
High Temperature
Polymer
Composites (2/2)
2.13
Electrical
Properties
of Continuous
Fibre Reinforced
Composites (1/1)
Lunch Break
Keynote lecture 13 (MUC) by Philippe Boisse,
Institut National des Sciences Appliquées Lyon,
France: COMPOSITE FORMING SIMULATIONS AT
MACRO AND MESO SCALES
Keynote lecture 14 (BIA) by Bent F. Sørensen,
Technical University of Denmark, Denmark:
CHARACTERIZING DELAMINATION RESISTANCE IN
TERMS OF MIXED MODE COHESIVE LAWS
Keynote lecture 15 (NAP) by Hubert Jäger,
Technische Universität Dresden, Germany:
CARBON FIBRES - FROM HYPE TOWARDS REALITY FOR FUTURE LIGHTWEIGHT CONCEPTS
Keynote lecture 16 (STG) by Volker Altstädt,
University of Bayreuth, Germany: THERMOPLASTIC LIGHTWEIGHT STRUCTURES - TRENDS AND
DEVELOPMENTS TOWARDS SERIAL PRODUCTION
15:00
15:50
Plenary Lecture 5 - Albert Cardon Lecture (MUC) by Juan José Vilatela, IMDEA Materials Institute, Spain: MULTIFUNCTIONAL COMPOSITES WITH MACROSCOPIC CNT FIBRES
15:50
16:00
Closing Ceremony (MUC)
ICM Munich
picture: Messe München GmbH
Start
27
The all-new
BMW 7 Series
www.bmw.com/
7series
Sheer
Driving Pleasure
LIGHTNESS TO
THE CORE.
THE ALL -NEW BMW 7 SERIES WITH
CARBON CORE. DRIVING LUXURY.
The model illustrated shows optional equipment.
HOW TO NAVIGATE IN THE PROGRAMME
PRESENTATION ID
POSTER ID
XXX-Y_ZZZ_A.AA-BB
PO_X-YY
Day
Slot
(MON, TUE,…) (1, 2,…)
Room ID
(MUC, SEV,…)
Session ID
Presentation no.
(1.01, 1.02,…)
(01, 02,…)
ROOMS
Poster
Topic
(1, 2,…)
Poster no.
(01, 02,…)
TOPICS
Name
Room ID
Topics
Munich
MUC
3
Seville
SEV
Venice
1
Applications
2
Materials Science
3
3
Material and Structural Behavior – Simulation & Testing
VEN
3
4
Experimental Techniques
Budapest
BUD
3
5
Manufacturing Technologies
Stockholm
STO
3
6
Multifunctional and Smart Composites
Biarritz
BIA
3
KN
7
Recycling and Sustainability
Rhodes
RHO
3
CM
8
Composite Clusters and Networks
Bruges
BRU
2
Brighton
BRI
2
Naples
NAP
2
London
LON
5
Bordeaux
BOR
5
Stuttgart
STG
5
KN
Augsburg
AUG
4
8
Ingolstadt
ING
6
7
Athens
ATH
1
PL
KN
IS
GA
PL =
KN
Plenary Lecture
KN = Keynote Lecture
CM = Council Meeting
GA = General Assembly
IS =
Industry Session
29
SCIENTIFIC PROGRAMME
Munich (MUC)
Venice (VEN)
Budapest (BUD)
Stockholm (STO)
Biarritz (BIA)
Rhodes (RHO)
8:30
Opening Ceremony (MUC)
9:00
Plenary Lecture 1 - Tony Kelly Lecture (MUC) by Ignaas Verpoest, Katholieke Universiteit Leuven, Belgium: COMPOSITES RESEARCH: INSPIRED BY PEOPLE, CHALLENGED BY NATURE
10:00
3.07 Thin Ply Composites (1/3)
3.06 Textile Composites (1/6)
3.04 Delamination (1/4)
3.11 Dynamic Loading - Impact,
Crash, Blast (1/6)
3.23 Maintainance and Repair
(1/2)
2.02 Polymer Matrix Materials (1/4)
MON-1_MUC_3.01-01
A THERMODYNAMICALLY
BASED WORK POTENTIAL
THEORY FOR PREDICTING
PROGRESSIVE DAMAGE AND
FAILURE IN 3D TEXTILE COMPOSITES
MON-1_SEV_3.07-01
DAMAGE MECHANISMS IN
THIN-PLY COMPOSITES : FREE
EDGE/BULK MEASUREMENTS
AND MULTISCALE MODELLING
MON-1_VEN_3.06-01
A NUMERICAL MODELLING
APPROACH FOR PREDICTING DEFECT GENERATION IN
2D WOVEN FABRICS DURING
MULTI-LAYERED PREFORMING
PROCESSES
MON-1_BUD_3.04-01
A FINITE THICKNESS INTERFACE ELEMENT FOR COMPOSITE DELAMINATION
MON-1_BIA_3.11-01
A COMPARISON OF QUASI-STATIC INDENTATION AND
LOW VELOCITY IMPACT ON
HYBRID COMPOSITE-METALLIC STRUCTURES USING MICRO-FOCUS COMPUTED TOMOGRPAHY
MON-1_RHO_3.23-01
BONDED HARD-PATCH COMPOSITE SCARF REPAIRS:
INFLUENCE OF MACHINING
TECHNIQUES AND SURFACE
TREATMENT
MON-1_BRU_2.02-01
A REACTIVE MOLECULAR DYNAMICS SIMULATION OF HYDROLYSIS DEGRADATION IN
POLYMERS
In this paper, a 3D thermodynamically-based work potential
theory for modeling progressive
damage for laminated, unidirectional composites,extend from
2D Schapery‘s theory, is used to
predict the response of textile
composites.
MON-1_MUC_3.01-02
CHRARACTERIZATION OF
INTERFACIAL STRENGTH BETWEEN FIBER AND MATRIX
BASED ON IMAGE ANALYSIS
OF PHOTOELASTICITY
MON-1
MONDAY
10:20
Kosuke Takahashi (Hokkaido
University)
Bentang Arief Budiman (Tokyo Institute of Technology)
Kazuaki Inaba (Tokyo Institute of
Technology)
Kikuo Kishimoto (Tokyo Institute
of Technology)
Interfacial strength between fiber
and matrix is evaluated by stress
contour observed in photoelastic
images of single fiber fragmentation test, based on non-rigid
bonding model of a cohesive
surface.
10:40
MON-1_MUC_3.01-03
COMBINED FE/STATISTICAL APPROACH FOR THE
STRENGTH OF COMPOSITE FIBRE BUNDLES CONSIDERING
HIERARCHICAL FAILURE
Gaël Grail (Imperial College London) Marie Coq (Imperial College
London) Charlotte Guesdon (Imperial College London)
Soraia Pimenta (Imperial College
London) Silvestre Pinho (Imperial
College London) Paul Robinson
(Imperial College London)
A hierarchical model for the
strength of composite fibre bundles is presented, which takes
into account the stochastic single
fibre strength distribution and
realistic full stress fields around
clusters of any size, predicted
with FE.
11:00
Bruges (BRU)
3.01 Fracture and Damage Micromechanics (1/8)
Sam Huang (New York State University at Stony Brook)
Evan Pineda (NASA)
30
Seville (SEV)
Sébastien Kohler, Joel Cugnoni
(Ecole Polytechnique Fédérale de
Lausanne)
Robin Amacher (Lab. of Applied
Mechanics and Reliability Analysis, EPFL)
John Botsis (Ecole Polytechnique
Fédérale de Lausanne)
Results of simultaneous acoustic
emission measurements and optical observation at the edge of
unnotched quasi-isotropic symmetric tension specimen. Comparison of this data with the early
results of a multiscale planestrain model.
Adam Thompson (University of
Bristol)
Jonathan Belnoue (University
of Bristol)
A hybrid element approach is
proposed and used to simulate
the interaction of multiple layers
during the preforming process of
composite manufacture. The accuracy of the method is examined
and compared with experimental results.
MON-1_SEV_3.07-02
DAMAGE SEQUENCE IN THINAND ULTRA-THIN-PLY COMPOSITE LAMINATES UNDER
OUT-OF-PLANE LOADING
MON-1_VEN_3.06-02
ACOUSTIC EMISSION FEATURES
IN TEXTILE REINFORCED THERMOSET AND THERMOPLASTIC
COMPOSITES
Ahmed Wagih (University of
Girona)
Emilio González, N. Blanco, Pere
Maimí (AMADE, Universidad de
Girona)
Jose Ramon Sainz (Aernnova Engineering Solutions Ibérica S.A.)
Federico Martin De La Escalera
(Aernnova Engineering Solutions
Ibérica S.A.)
Alessandro D’Ettorre (Politecnico
di Milano)
Valter Carvelli (Politecnico di Milano) Stepan Lomov (KU Leuven)
This paper investigates experimentally the damage in thin- and
ultra-thin-ply laminates under
out-of-plane loading for better understanding the damage sequence
during impact test.
MON-1_SEV_3.07-03
DESIGN SPACE INTERROGATION FOR NEW C-PLY LAMINATE ARCHITECTURES
Christopher York (University of
Glasgow)
Sérgio Frascino Müller de Almeida
(University of São Paulo)
This article investigates the extent to which new NCF architectures can be tailored to achieve
warp free tapered laminates without the need for deposition with
off axis alignment, hence ply discontinuities. Buckling strength is
also considered.
The Acoustic Emission cluster
analysis was applied to investigate the AE clustering in thermoset and thermoplastic reinforced
2D textiles. The initial cracks observation showed the correlation
to the cluster of low amplitude
and low frequency events.
MON-1_VEN_3.06-03
ARCHITECTURAL DESIGN OF
3D WOVEN COMPOSITES ASSISTED BY FE MULTISCALE
MODELING
Quentin Roirand (MINES ParisTech)
Alain Thionnet (MINES ParisTech)
Lucien Laiarinandrasana (MINES
ParisTech)
Composite materials reinforced
with three-dimensional polymeric yarns fabric are investigated.
This study aims at providing some
rules for an architecture optimization of woven composites in regard with the failure processes.
José Reinoso (University Seville)
Marco Paggi (IMT Institute for Advanced Studies Lucca)
Antonio Bláquez (University of
Seville)
Trevor Allen, Sharif Ahmed,
Philippa Reed, Ian Sinclair,
Mark Spearing (University of
Southampton)
Novel finite thickness interface
model foe triggering delamination
failure in composites.
The equivalence of quasi-static
indentation and low velocity impact loading regimes has been
assessed in hybrid composite-metallic structures. The results
demonstrate a strong equivalence
between QSI and LVI loading regimes in these structures.
MON-1_BUD_3.04-02
A MULTI-SCALE MODELLING
METHOD FOR TUFTED COMPOSITES: UNIT-CELL MODEL
MON-1_BIA_3.11-02
A NUMERICAL-EXPERIMENTAL STUDY OF THE DAMAGE
RESPONSE OF STITCHED COMPOSITE LAMINATES TO LOW
VELOCITY IMPACT
Camilla Osmiani (University of
Bristol)
Galal Mohamed (Rolls-Royce /
University of Bristol)
Giuliano Allegri (Imperial College
London)
Ivana Partridge (University of
Bristol)
Luca Francesconi (University of
Cagliari)
Francesco Ginesu (University of
Cagliari)
Francesco Aymerich (University
of Cagliari)
This paper focuses on ‚micro-local‘ scale modelling for tufted
composites. The characterisation
of the mode I bridging law of single carbon tufts is reported here,
and a strategy for model development is proposed.
The study examines experimentally and by FE analises the effect of stitching on the impact
behaviour of cross-ply carbon/
epoxy laminates. The developed
model is able to capture the role
of stitching in enhancing the impact damage resistance of the
laminates.
MON-1_BUD_3.04-03
ACCURATE CHARACTERIZATION
OF MODE II INTRALAMINAR DELAMINATION FRACTURE TOUGHNESS IN INTERLAYER-TOUGHENED CFRP
MON-1_BIA_3.11-03
AN INVESTIGATION ON THE
INFLUENCE OF LOADING RATE
ON THE FRACTURE TOUGHNESS OF UHMW-PE COMPOSITES
Masaki Hojo (Kyoto University)
Kazuki Ohashi (Kyoto University)
Takuma Inoue (Kyoto University)
Narumichi Sato (Toray)
Masaaki Nishikawa (Kyoto University)
Nakoki Matsuda (Kyoto University)
Manato Kanesaki (Kanazawa Institute of Technology)
Michael May (Fraunhofer EMI)
Torsten Lässig (Fraunhofer EMI)
Stefan Hiermaier (Fraunhofer
EMI)
A material model for cohesive
interface elements is proposed
which allows describing the
rate-dependent evolution of
strength and fracture toughness
of Dyneema HB26 composites.
The model is verified against DCB
tests at high rates of loading.
Mode II intralaminar delamination fracture toughness was firstly
investigated. The intralaminar
fracture toughness of interlayer-toughened CFRP was almost
identical to the interlaminar and
intralaminar fracture toughness
of non-toughened CFRP.
Coffee Break
Paul Wales (University of Limerick)
Cormac O Brien, Alan Conneely,
Gerard O Connor (NUI Galway)
Kali Katnam (University of Manchester)
Robert Young (University of Manchester)
Behrouz Arash (Delft University of
Technology)
Barend J. Thijsse (Delft University
of Technology)
Alessandro Pecenko (Bosch Thermotechnik GmbH)
Angelo Simone (Delft University
of Technology )
Hard patch CFRP scarf repairs
were investigated for understanding the influence of machining
techniques of surfaces to be
bonded on structural repair efficiency. Manual sanding, manual
sanding after CNC machining and
laser ablation were examined.
We perform reactive molecular
dynamics simulations to investigate the mechanism of chemical
aging ofpolyamide polymers by
means of hydrolysis in an acidic
solution at high temperature.
MON-1_RHO_3.23-02
BONDED REPAIRS OF COMPOSITE STRUCTURES: VOID
FORMATION MECHANISMS IN
AN ADHESIVE FILM
MON-1_BRU_2.02-02
ASSESSMENT OF SELF-HEALING EFFICACY OF THERMOPLASTIC IONOMER FILMS INTERLEAVING CARBON-FIBRE
REINFORCED EPOXY MATRIX
LAMINATES
Mathieu Préau (McGill University)
Nadine Auda-Kothari (McGill
University)
Pascal Hubert (McGill University)
Moisture-induced void formation
and growth in a repair adhesive
film was monitored throughout
the cure. Porosity measurements
matched well a diffusion-based
analytical model for a variety of
processing conditions representative of repair environments.
MON-1_RHO_3.23-03
NUMERICAL AND EXPERIMENTAL INVESTIGATION INTO
THE INFLUENCE OF GEOMETRIC PARAMETERS OF HYBRID
COMPOSITE REPAIRS ON MECHANICAL PERFORMANCE
Markus Linke (University of Applied Sciences Hamburg)
Philipp Abel (RWTH Aachen University)
Thomas Gries (RWTH Aachen
University)
The paper is about a hybrid repair
for composites where the bonding
area is reinforced with yarns that
built small scale form fittings elements after curing in a co-bonding process. The tensile strength
is restored to 86% of the undamaged specimens.
Jose Tarpani (University of Sao
Paulo)
Karen Morioka (University of
Sao Paulo)
Mech. testing along with IR inspection of ballistically pre-impacted and subsequently heat
treated thermoplastic ionomeric
films interleaving CFR epoxy matrix laminates have demonstrated
the achievement of thermally-activated self-healing process.
MON-1_BRU_2.02-03
CHARACTERIZATION OF A
NEW THERMOPLASTIC REACTIVE ACRYLIC-BASED ADHESIVE FOR MULTILAYER COMPOSITE LAMINATES
Quentin Charlier (INSA de Lyon)
Frédéric Lortie (Ingénierie des
Matériaux Polymères Lyon)
Pierre Gérard (ARKEMA,
Groupement de Recherche de
Lacq)
Jean-François Gérard (INSA de
Lyon)
Study focus on characterization
of acrylic reactive systems used
as adhesive for composite laminates during polymerization.
Conversion degree, viscosity and
cure exothermicity evolution with
time, influence of glass fiber presence were investigated.
Brighton (BRI)
Naples (NAP)
London (LON)
Bordeaux (BOR)
Stuttgart (STG)
Augsburg (AUG)
Ingolstadt (ING)
Athens (ATH)
Opening Ceremony (MUC)
8:30
Plenary Lecture 1 - Tony Kelly Lecture (MUC) by Ignaas Verpoest, Katholieke Universiteit Leuven, Belgium: COMPOSITES RESEARCH: INSPIRED BY PEOPLE, CHALLENGED BY NATURE
9:00
2.07 Graphene, Graphene-Based
Composites (1/4)
2.06 Nano Composites (1/7)
5.11 Upscaling and Automation (1/1)
5.08 Liquid Composite Molding (1/2)
5.09 Manufacturing Processes for
Thermoplastic Composites (1/7)
4.02 X-ray Computed Tomography (1/2)
1.01 Aerospace (1/6)
MON-1_BRI_2.07-01
A COMPARISON OF THE
MICROMECHANICS OF
GRAPHENE- AND TRANSITION
METAL DICHALCOGENIDENANOCOMPOSITES.
MON-1_NAP_2.06-01
A STUDY ON FATIGUE BEHAVIOR OF NANOINTERLEAVED
WOVEN CFRP
MON-1_LON_5.11-01
AUTOMATED APPLICATION
OF LIGHTNING PROTECTION MATERIAL ON DOUBLE
CURVED FUSELAGE PANELS
OF CARBON FIBRE AIRCRAFTS
– FROM THE IDEA TO THE APPLICATION.
MON-1_BOR_5.08-01
AUDI ULTRA-RTM: A TECHNOLOGY FOR HIGH PERFORMANCE
AND COST EFFECTIVE CFRP
PARTS FOR HIGH VOLUME
PRODUCTION
MON-1_STG_5.09-01
QSP®: AN INNOVATIVE PROCESS BASED ON TAILORED
PREFORMS FOR LOW COST
AND FAST PRODUCTION OF
OPTIMIZED THERMOPLASTIC
COMPOSITE PARTS
MON-1_AUG_4.02-01
APPLICATION OF X-RAY COMPUTED MICRO-TOMOGRAPHY
TO THE STUDY OF DAMAGE,
SELF HEALING AND OXIDATION OF THERMOSTRUCTURAL
COMPOSITES
Damien Guillon (CETIM)
Alain Lemascon (CETIM)
Clément Callens (CETIM)
Olivier Caty, Vincent Mazars,
Bertrand Remi (University of
Bordeaux) Denneulin Sebastien
(Herakles (SAFRAN)) Guillaume
Couegnat, Gerard Vignoles (University of Bordeaux)
MON-1_ATH_1.01-01
„INNOVATIVE AIRCRAFT
POLYMER MATRIX COMPOSITES (IAPMC)“ PROJECT IN
SIP- SM4I JAPAN - INTELLIGENT PROCESS MONITORING
AND QUALITY ASSESSMENT
OF CFRP STRUCTURES
Fang Wang, Mark Bissett,
Daniel Wolverson (University of
Bath) Reshef Tenne (Weizmann
Institute, Israel) Robert Young,
Ian Kinloch (University of Manchester)
Tommaso Brugo, Giangiacomo
Minak, Andrea Zucchelli (University of Bologna) Xiu Yan (University of Strathclyde) Hamed Saghafi, Mohamad Fotouhi (Amirkabir
University of Technology)
Roberto Palazzetti (University of
StrathClyde)
Marcin Malecha, Clemens
Schmidt-Eisenlohr, Patrick
Kaufmann, Christian Rähtz
(German Aerospace Center)
The micro mechanics of 2-dimensional reinforcements in polymer
composites has been studied
using Raman spectroscopy, with
the results being used to establish the design rules for such
composites.
DCB virgin and nanomodified
CFRP were tested and compared.
Static tests showed nanomodified specimens 130% stronger.
Crack grow ratio chart showed
that nanomodified specimen can
sustain a 85%higher load and
that fracture propagates 30 times
slower.
We‘re presenting our solution for
automated application of lightning strike protection material on
double curved fuselage parts. Our
approach speeds up the lay-up,
shortens the process and allows
application of wider cuts compare
to manual process.
MON-1_BRI_2.07-02
COMPRESSION BEHAVIOUR
OF EMBEDDED GRAPHENES OF
VARIOUS THICKNESSES
MON-1_NAP_2.06-02
CARBON NANO-INK COATED
OPEN CELL POLYURETHANE
FOAM WITH MULTILAYERED
SKELETON FOR DAMPING APPLICATIONS
MON-1_LON_5.11-02
AUTOMATING LAYUP OF
SHEED PREPREG ON COMPLEX
MOULDS
Costas Galiotis (Institute of
Chemical Engineering Sciences/
Foundation of Research and Technology Hellas)
Charalampos Androulidakis (University of Patras)
Emmanuel Koukaras,
John Parthenios,
Konstantinos Papagelis (Institute
of Chemical Engineering Sciences/Foundation of Research and
Technology Hellas)
In the present the mechanical behaviour of multi layer graphenes
embedded in polymer matrices
is examined using Raman spectroscopy.
MON-1_BRI_2.07-03
FREEZE-CAST GRAPHENE
AEROGELS AND THEIR EPOXY COMPOSITES WITH
ULTRALOW PERCOLATION
THRESHOLD
Zhenyu Wang, Xi Shen, Ne Myo
Han, Xu Liu, Ying Wu, Jang-Kyo
Kim (Hong Kong University of Science and Technology)
A unidirectional freeze casting method is used to fabricate
graphene aerogels with aligned
porous structure. Its epoxy composites had an ultralow percolation threshold of 0.007 vol% with
anisotropic electrical properties
in two orthogonal directions.
Xiao-Chong Zhang (University
of Bristol) Fabrizio Scarpa (University of Bristol) Ronan McHale
(Thomas Swan & Co. Ltd.)
Andrew Limmack (University of
Bristol) Hua-Xin Peng (Zhejiang
University)
CNT-CNT sliding mechanism was
utilised to create frictional energy dissipation in high density
nano-filler regions to improve
damping performance of an open
cell foam through multilayered
nano-inks coatings on foam
skeleton.
MON-1_NAP_2.06-03
CREEP BEHAVIOUR OF PP/CNT
NANOCOMPOSITES: AN EXPERIMENTAL STUDY VALIDATED WITH CREEP MODEL
Deniz Ürk, Abdullah Dönmez,
Didem Ovalı, Şenol Ataoğlu,
M.Lütfi Öveçoğlu, Hülya Cebeci
(Istanbul Technical University)
The creep-recovery behaviour of
isotactic polypropylene-multi wall
carbon nanotubes (PP/CNT) nanocomposites has been studied with
long-term tensile test at dynamic
mechanical analysis.
Michael Elkington (University of
Bristol) Carwyn Ward (University
of Bristol) Kevin Potter (University of Bristol)
A new two-stage method for the
automated manufacture of high
performance composites components is presented which uses
multiple end effectors to combine
the flexibility of Hand Layup with
the speed and consistency of existing automated systems.
MON-1_LON_5.11-03
ROBOT-FORMING OF PREPREG
STACKS - DEVELOPMENT OF
EQUIPMENT AND METHODS
Andreas Björnsson (Linköping
University)
Marie Jonsson (Swerea SICOMP)
Jan Erik Lindbäck (SAAB Aerostructures)
Malin Åkermo (KTH Royal Institute of Technology)
Kerstin Johansen (Linköping University)
The development of tools and the
establishment of a forming-sequence for sequential forming of
prepreg stacks to an Ω-shaped
geometry using a standard dual-arm robot is presented. Tests
show that stacks can be formed
using the developed method.
Günter Deinzer (Audi AG)
Martin H. Kothmann (Audi AG)
David Roquette (Audi AG)
Felix Diebold (Audi AG)
Within the last few years the Audi
AG researched and developed
the ultra-RTM technology which
allows a cost-effective manufacturing for high-performing CFRP
structures.
CETIM has developed a pilot line
to produce in 1 minute complex
composite parts able to fulfill the
requirements of mass production
industries: - from raw material
to net shaped part, - production
efficiency, - multi-thickness &
multi-orientation.
MON-1_BOR_5.08-02
DUAL SCALE FLOW DURING
VACUUM INFILTRATION OF
FIBER-REINFORCED COMPOSITES: FROM IN SITU SYNCHROTRON EXPERIMENTS TO
NUMERICAL SIMULATIONS
MON-1_STG_5.09-02
AUTOMATED PRODUCTION OF
CARBON FIBER REINFORCED
THERMOPLASTIC SINE WAVE
BEAMS
Joaquí Vila, Federico Sket (IMDEA
Materials Institute)
Carlos González, Javier Llorca
(Polytechnic University of Madrid
& IMDEA Materials Institute)
This presentation is a contribution to understand the phenomena that control vacuum-assisted
resin infusion at the mesoscopic
and microscopic scales using
X-ray microtomography and vacuum-infusion tests, together with
numerical simulations.
MON-1_BOR_5.08-03
HYBRID-MATRIX PROCESSING: HOW TO CO-INJECT MULTIPLE RESIN SYSTEMS INTO
ONE COMPOSITE PART?
Jan Krollmann, Carlos Sanchez Alvarado, Patrick Carqueville,
Roman Snajdr (Technical University of Munich)
Swen Zaremba, Klaus Drechsler
(Technical University of Munich/
Institute for Carbon Composites)
A method for the co-injection of
multiple resin systems in on composite part with defined out-ofplane transition is investigated.
Based on local, reversible compactioning of the preform flow
fronts can be controlled during
the RTM injection process.
Coffee Break
Frederic Fischer, Matthias Beyrle,
Manuel Endraß,
Leonhard Häberle,
Thomas Stefani,
Matthias Gutschon,
Philipp Gänswürger, Georg Braun,
Michael Kupke (German Aerospace Center)
With this paper DLR ZLP (AU) will
give insight into current work on
automated production of carbon
fiber reinforced thermoplastic
aerospace structures, via vacuum
consolidation (OoA), hot press
processing and implant resistance
welding.
MON-1_STG_5.09-03
CERAMIC PRESSING TOOL FOR
VARIOTHERMAL PROCESSING
OF THERMOPLASTIC FIBER
COMPOSITES
Florian Kühn (IVW GmbH)
Luisa Medina, David Becker (Institute for Composite Materials)
M. Zwick (Forschungsinstitut für
anorganische Werkstoffe – Glas/
Keramik – GmbH) M. Knoch (FCT
Ingenieurkeramik GmbH)
B. Romahn (Weberit Werke
Dräbing GmbH)
Peter Mitschang (Institute for
Composite Materials)
Development of tools made of the
ceramic material silicon carbide
(SiC) for variothermal processing
of thermoplastic fiber composites with high energy efficiency
as well as fast heating and cooling rates.
Failure and oxidation of self healing phases in CMC are studied
in-situ using μCT. Crack networks
were analysed during tension
at high temperature (20°C to
1250°C). Image based FE models were built to better understand tests.
MON-1_AUG_4.02-02
DEFORMATION ANALYSIS
OF POLYMER FOAMS UNDER
COMPRESSION LOAD USING
IN SITU COMPUTED TOMOGRAPHY AND FINITE ELEMENT
SIMULATION METHODS
Oliver Weißenborn, S. Geller,
Mike Gude, Folke Post,
S. Praetorius, Axel Voigt,
S. Aland (Technical University of
Dresden)
Nobuo Takeda, Shu Minakuchi,
Akira Hamamoto (University
of Tokyo)
The main purpose of this project
is to develop high-rate production aircraft PMC products and
quality assurance technology for
next-generation CFRP aircraft
structures, including Low-cost Autoclave and OoA CFRP, and Theromoplastic CFRP.
MON-1_ATH_1.01-02
COMPOSITE FATIGUE DAMAGE
EVOLUTION USING DISCRETE
DAMAGE MODELING
Discrete Damage Modeling was
used to simulate IM7/977-3
[30/60/90/-60/-30]2s laminate
under cyclic loading.
MON-1_AUG_4.02-03
EX-SITU TIME-LAPSE X-RAY
CT STUDY OF 3D MICROSTRUCTURAL FATIGUE DAMAGE
EVOLUTION IN UNIDIRECTIONAL COMPOSITES
MON-1_ATH_1.01-03
ALIGNED CARBON NANOTUBE
WEBS IN AEROSPACE CARBON
FIBRE REINFORCED POLYMER
COMPOSITES FOR ANTI-ICING/DE-ICING APPLICATIONS
Yao Xudan (Queen‘s University
Belfast) Brian Falzon (Queen‘s
University Belfast)
Stephen Hawkins (Queen‘s University Belfast)
In this study, fatigue damage
progression in terms of individual fibre fractures and off-axis
cracks in a NCF fibre composite
is observed in-destructively by
transilluminated white light imaging and ex-situ X-ray computed
tomography.
10:20
Endel Iarve (University of Texas
Arlington)
Kevin Hoos (University of Dayton)
Michael Braginsky (University of
Texas Arlington)
Eric Zhou (University of Dayton)
David Mollenhauer (Air Force Research Laboratory)
A novel in situ CT device is used
to perform compression tests
on closed-cell polymeric foams
to analyse the deformation behaviour. With the introduction of
a phase field function, complex
structures can be meshed for
simulation.
Kristine Munk Jespersen (Technical University of Denmark)
Ying Wang (University of Manchester) Jens Zangenberg (Composite Mechanics, LM Wind Power
Blades) Tristan Lowe,
Philip J. Withers (University of
Manchester) Lars P. Mikkelsen
(Technical University of Denmark)
10:00
10:40
This paper reports on an initial
investigation into the use of carbon nanotube (CNT) webs incorporated at an interface of a carbon fibre composite laminate to
increase thermal conductivity for
energy efficient anti-icing/de-icing applications.
11:00
31
Munich (MUC)
11:30
MON-2
MONDAY
11:50
12:10
Venice (VEN)
Budapest (BUD)
Stockholm (STO)
Biarritz (BIA)
Rhodes (RHO)
Bruges (BRU)
3.01 Fracture and Damage - Micromechanics (2/8)
3.07 Thin Ply Composites (2/3)
3.06 Textile Composites (2/6)
3.04 Delamination (2/4)
3.21 Effects of Manufacturing Effects (EoE) (1/2)
3.11 Dynamic Loading - Impact,
Crash, Blast (2/6)
3.23 Maintainance and Repair
(2/2)
2.02 Polymer Matrix Materials (2/4)
MON-2_MUC_3.01-04
COMPOSITE MATERIALS UNDER TRANSVERSE BIAXIAL
LOADS: STUDY OF THE INFLUENCE OF A NEARBY FIBRE
ON THE INTERFACE CRACK
GROWTH UNDER TENSION.
MON-2_SEV_3.07-04
EFFECT OF PLY THICKNESS ON
THE IMPACT RESPONSE OF INTERLEAVED NON-CRIMP-FABRIC LAMINATES
MON-2_VEN_3.06-04
AVOIDING INTERPENETRATIONS AND FIBRE VOLUME
FRACTION CORRECTIONS IN
REPRESENTATIVE UNIT CELLS
FOR TEXTILE COMPOSITES
THROUGH ADVANCED GEOMETRY GENERATION
MON-2_BUD_3.04-04
CHARACTERIZATION OF PURE
MODE I, II AND III DELAMINATION OF LAMINATED COMPOSITE BY USING EDGE RING
CRACK SPECIMEN
MON-2_STO_3.21-01
A BIPHASIC MODEL TO PREDICT THE COMPRESSION
STRENGTH OF MISALIGNED
THERMOPLASTIC COMPOSITE
MON-2_BIA_3.11-04
LOW-VELOCITY IMPACT BEHAVIOR MODELLING OF
BRAIDED TEXTILE COMPOSITES FOR SPORTS PROTECTION
MON-2_RHO_3.23-04
RELATIONSHIP BETWEEN
INTERLAMINAR SHEAR
STRENGTH AND REPAIR CONDITIONS OF DELAMINATION
BY THERMAL FUSION BONDING IN CF/PA6 LAMINATES
MON-2_BRU_2.02-04
COMPARISON OF PROCESS
CHAINS FOR THE PRODUCTION OF THERMOPLASTIC UDTAPES AND ORGANIC SHEETS
Carlos Sandino (University of Seville) Elena Correa (University of
Seville) Federico París (Universidad de Sevilla)
Santiago García Rodríguez
(AMADE, Universidad de Girona) Vicky Singery (CHOMARAT)
Philippe Sanial (CHOMARAT)
Josep Costa (AMADE, Universidad
de Girona)
The interface crack growth associated with the inter-fibre failure
under biaxial tension is studied
by means BEM model. The influence of a secondary fibre on the
evolution of an interface crack is
analysed using Interfacial Fracture Mechanics.
The effect of ply-thickness and
interleaving by non-woven thermoplastic veils on the damage resistance of thin-ply NCF laminates
was studied. Non-woven polyamide veils contribute to delay delamination onset and/or to arrest
their propagation.
MON-2_MUC_3.01-05
COMPOSITE MICRO-SCALE
MODEL ACCOUNTING FOR
DEBONDING, STRAIN RATE-DEPENDENCE AND DAMAGE UNDER
IMPACT USING AN EXPLICIT FINITE ELEMENT SOLVER
MON-2_SEV_3.07-05
EVALUATION OF FLEXURAL
MODULUS OF ULTRA-THIN
CHOPPED CARBON FIBER
TAPE REINFORCED THERMOPLASTICS
Francisco A. Gilabert (Ghent
University) David Garoz Gomez
(Ghent University) Ruben Sevenois (Ghent University) Siebe
Spronk (Ghent University) Ali Rezaei (Ghent University) Wim Van
Paepegem (Ghent University)
Yuto Nakashima (University of
Tokyo)
Hirofumi Suganuma (University
of Tokyo)
Shinichiro Yamashita (University
of Tokyo)
Jun Takahashi (University of
Tokyo)
This work presents a micro-scale
simulation model that can be
used to analyze the mechanical
response of UD composites undergoing high strain rates. The
model includes features like fiber-matrix debonding, strain-rate
dependency and matrix failure.
Test results by small specimens of
UT-CTT, which are a kind of randomly oriented strands made by
water dispersed thin tape, tend to
be somewhat scattered. Flexural
moduli and scatter were evaluated with prediction model and
experiments.
MON-2_MUC_3.01-06
COMPUTATIONAL MICROMECHANICS ON POLYMER MATRIX COMPOSITES UNDER
DIFFERENT ENVIRONMENTS:
LONGITUDINAL, TRANSVERSE
AND SHEAR PLY PROPERTIES
MON-2_SEV_3.07-06
GEOMETRICALLY NONLINEAR
ASYMPTOTIC HOMOGENIZATION MODELING OF A THIN
COMPOSITE LAYER WITH
WAVY SURFACES
Fernando Naya (IMDEA Materials
Institute)
Claudio Lopes (IMDEA Materials
Institute)
Carlos González (Polytechnic University of Madrid & IMDEA Materials Institute)
A coupled experimental-computational micromechanical framework to determine the mechanical
properties of unidirectional composites under RT/DRY and HOT/
WET conditions is described in
this paper.
32
Seville (SEV)
Gobinda Saha (University of New
Brunswick)
Alexander Kalamkarov (Dalhousie
University)
Francesco Tornabene (University
of Bologna)
This paper develops the geometrically non-linear composite plate
model to analyze the effective
elastic properties through the application of the modified asymptotic homogenization method.
The analytical formulae for effective moduli are derived.
Ruben Sevenois (Ghent University) David Garoz Gomez (Ghent
University) Francisco A. Gilabert
(Ghent University) Wim Van
Paepegem (Ghent University)
A new geometry generation method for RUCs is shown which takes
into account ply nesting and generates yarn cross sectional areas
as observed from in-situ measurements. The generated geometry
can be used for local stress and
strain field prediction.
MON-2_VEN_3.06-05
AVOIDING SPURIOUS TRANSVERSE MODES IN 3D TEXTILE
COMPOSITE REINFORCEMENT
FORMING SIMULATION
Philippe Boisse (INSA de Lyon)
S. Mathieu (INSA de Lyon)
N. Hamila (INSA de Lyon)
The specific anisotropy of 3D reinforcements due to the possible
slippage between fibers induces
spurious transverse modes in
bending-dominated 3D simulations. 2 solutions are proposed.
One uses an assumed strain
method. The second bending
stiffness.
MON-2_VEN_3.06-06
CHARACTERISTIC LOAD CASES
OF BIAXIAL BRAIDS
Daniel Michaelis (University of
Stuttgart)
Peter Middendorf (University of
Stuttgart)
CFRP specimens are tested in tension and compression, and two
characteristic load cases are identified by examining the damage
behaviour: in load case 1 failure is
triggered by shear, while in load
case 2 failure is dominated by
cross-fibre tension.
Yangyang Ge (Institut Universitaire de Technologie, Département GMP)
Xiaojing Gong (Institut Supériaur de l‘Aéronautique et de l‘Espace, ISAE)
Emmanuel De-Luycker (Université
de Toulouse)
Anita Hurez (Univ. Bourgogne
Franche-Comté)
Edge Ring Crack (ERC) specimen
tests are proposed in order to
study pure mode I, mode II and
mode III delamination behavior
of laminated composite.
MON-2_BUD_3.04-05
DELAMINATION INITIATION
AND PROPAGATION MODELLING WITH AN ENRICHED
SHELL ELEMENT FORMULATION
Johannes Främby (Chalmers University of Technology)
Martin Fagerström (Chalmers University of Technology)
Jim Brouzoulis (Chalmers University of Technology)
The potential of an adaptive shell
element formulation is shown,
where delamination cracks are
automatically introduced by an
adaptive enrichment of the displacemnt field. A method to improve the transverse stresses in
shells is also discussed.
Damien Guillon (CETIM)
Dao Co (CETIM)
Cyril Priem (GeM Nantes)
Martin Antoine (GeM Nantes)
Patrick Rozycki (Institut de Recherche en Génie Civil et Mécanique)
Compression strength obtained
from a numerical biphasic model
for thermoplastic and misaligned
fibers are compared to experimental data. Choice of materials
parameters are deeply discussed.
The model provides interesting
results if calibrated.
MON-2_STO_3.21-02
AN EXPERIMENTAL STUDY
ON THE INFLUENCE OF FLOW
CHANNEL INDUCED FIBER UNDULATION.
Christoph Kracke (BMW AG)
Bernhard Staudt (BMW AG)
Simon Bickerton (University of
Auckland)
Peter Mitschang (Institute for
Composite Materials)
This study deals with the potential of flow channels in RTM tools
for faster impregnation. It is investigated how such flow channels influence the mechanical
performance of the part.
MON-2_BUD_3.04-06
EFFECT OF ADHESIVE LAYER
ON THE MODE I INTERLAMINAR DELAMINATION OF CFRP
BONDED JOINTS
MON-2_STO_3.21-03
CHARACTERISATION OF DEFECTS – DURABILITY RELATIONSHIPS FOR COMPLEX GEOMETRY PREPREG LAMINATES
Nassima Nasri (EPFL)
Joel Cugnoni (Ecole Polytechnique
Fédérale de Lausanne)
John Botsis (Ecole Polytechnique
Fédérale de Lausanne)
Mark Battley (University of Auckland) Simon Bickerton (University
of Auckland) Alexandre Mordasini
(University of Auckland)
Abhiram Ramesh (University of
Auckland) Nathan Connell (University of Auckland)
Logan Dunning Beck (University
of Auckland)
This work reports on the results
of an experimental and numerical
study of the influence of an adhesive layer on the mode I interlaminar delamination of Asymmetric
DCB unidirectional composites.
The characteristics and formation of defects and imperfections
during manufacturing of corner
sections in thick carbon-fibre epoxy prepreg laminates is studied
and their effect on damage initiation and durability investigated.
Chen Wang (Nanyang Technological University)
Anish Roy (Loughborough University)
Zhong Chen (Nanyang Technological University)
Vadim Silberschmidt (Loughborough University)
A multi-scale computational approach is explored to predict
low-velocity impact performance
of braided textile composites
under impact conditions with energy levels between 3 J to 9 J; the
obtained results are compared
with original experiments.
MON-2_BIA_3.11-05
CHARACTERISATION OF HIGH
STRAIN RATE DEPENDENCY OF
3D WOVEN CFRP MATERIALS
Nicolas Tran (Snecma)
Julien Berthe (ONERA-The French
aerospace Lab)
Mathias Brieu (Ecole Centrale de
Lille) Gérald Portemont (ONERAThe French aerospace Lab)
Eric Deletombe (ONERA-The
French aerospace Lab)
Julien Schneider (Snecma)
This paper focuses on the characterisation of high strain rate
dependency of a 3D woven CFRP
materials. Thereby, an experimental protocol was developed,
validated and applied in order
to characterize the strain rate
sensibility.
MON-2_BIA_3.11-06
DEVELOPMENT AND VALIDATION OF A STRAIN-RATE AND
TEMPERATURE DEPENDENT
CRUSHING MODEL FOR EXPANDED POLYSTYRENE FOAM
APPLIED IN BICYCLE HELMETS
Anastasiia Krundaeva (Ghent
University)
Guido De Bruyne (University of
Antwerp)
Wim Van Paepegem (Ghent University)
This research is aimed at developing a strain-rate and temperature
dependent crushing model for
expanded polystyrene foam. This
work is also aimed to establish a
comparison of the FE analysis in
LS-DYNA with the dynamic compression test result.
Manato Kanesaki (Kanazawa Institute of Technology)
Mototsugu Tanaka (Kanazawa Institute of Technology)
Hiroshi Saito (Kanazawa Institute
of Technology) Kiyoshi Uzawa
(Kanazawa Institute of Technology) Masaki Hojo (Kyoto University) Isao Kimpara (Kanazawa Institute of Technology)
We evaluated the effectiveness
of repair using TFB on the delamination in CFRTP laminate.
Interlaminar shear test using double-notched specimen was carried out to evaluate interlaminar
shear strength at the region of
repaired delamination.
MON-2_RHO_3.23-05
REPAIR PROCEDURE ON VEGA
SRM SKIRT
Giovangiuseppe Giusto (CIRA
Italian Aerospace Research Centre) Felice De Nicola (CIRA Italian Aerospace Research Centre)
Francesco Di Caprio (CIRA Italian Aerospace Research Centre)
Umberto Mercurio (CIRA Italian
Aerospace Research Centre) Antonio Zallo (Avio SpA) Valeria Vinti
(Avio SpA) Arsenio Cutolo (University of Naples) Massimiliano
Fraldi (University of Naples)
The aim of the present work is
to present a repair procedure for
composite skirt of VEGA Solid
Rocket Motors (SRM), validated
on scaled cylinder representative
of the Skirt of the P80-SRM by experimental compression tests.
MON-2_RHO_3.23-06
SIZE REDUCED COMPOSITE REPAIRS BY PLY WISE
SCARFING
Dirk Holzhüter (German Aerospace Center)
Jens Kosmann (German Aerospace
Center)
Christian Hühne (German Aerospace Center)
Michael Sinapius (Technische
Universität Braunschweig)
Martin Schollerer (German Aerospace Center)
The study introduces the concept
of ply wise scarfed composite
joints. The results are relevant to
increase the number of bonded
repairs under current certification
restrictions and to develop high
strength composite scarf repairs.
Andreas Erber (SGL Technologies)
Steffen Janetzko (SGL Technologies ) S. Spitko (SGL Technologies) Patrik-Vincent Brudzinski
(SGL Technologies)
The paper shows a comparison
of different process chains to
produce UD-tapes and Organic
Sheets. The investigation comprises different technologies and
therefore process chains like film,
powder-, solventimpregnation
and pultrusion.
MON-2_BRU_2.02-05
CORRELATION OF THE DIELECTRIC PROPERTIES OF AN EPOXY RESIN WITH THE DEGREE
OF CURE
Amke Eggers (Clausthal University of Technology)
Dilmurat Abliz (Clausthal University of Technology)
Gerhard Ziegmann (Clausthal University of Technology)
Dieter Meiners (Clausthal University of Technology)
DEA can monitor the cure of a resin. Molecular alterations during
the cure change the permittivity.
From DSC measurements the degree of cure is fitted, which can
be correlated with the DEA measurements by knowing the time
lapse of both experiments.
MON-2_BRU_2.02-06
DEVELOPMENT OF CARBON
FELT BASED THERMOPLASTIC
COMPOSITE BIPOLAR PLATES
FOR PEMFC
Ha Eun Lee (Jeonbuk university)
Seong Su Kim (Chonbuk National
University)
In this study, the carbon felt made
of pan based carbon fiber was
used to fabricate the bipolar plate
for PEMFCs.
Brighton (BRI)
Naples (NAP)
London (LON)
Bordeaux (BOR)
Stuttgart (STG)
Augsburg (AUG)
Ingolstadt (ING)
Athens (ATH)
2.07 Graphene, Graphene-Based
Composites (2/4)
2.06 Nano Composites (2/7)
5.07 Pultrusion and Filament
Winding (1/1)
5.08 Liquid Composite Molding (2/2)
5.09 Manufacturing Processes for
Thermoplastic Composites (2/7)
4.02 X-ray Computed Tomography (2/2)
6.01 Smart Structures (1/2)
1.01 Aerospace (2/6)
MON-2_BRI_2.07-04
GRAPHENE WOVEN FABRIC/
POLYDIMETHYLSILOXANE
COMPOSITES AS FLEXIBLE
STRAIN AND TEMPERATURE
SENSORS FOR WEARABLE APPLICATIONS
MON-2_NAP_2.06-04
DEVELOPMENT OF GRAPHENE
NANOPLATELETS REINFORCED
ALUMINIUM MATRIX NANOCOMPOSITES BY A COMBINATION OF SEMI-SOLID
STIRRING AND ULTRASONIC
TREATMENT
MON-2_LON_5.07-01
CHARACTERISATION OF ULTRAVIOLET CURING RESINS
FOR 3D PULTRUSION
MON-2_BOR_5.08-04
INFLUENCE OF TEXTILE ARCHITECTURE BY PROCESSING
CARBON FIBER BASED NONCRIMP FABRICS IN AUTOMOTIVE SERIAL APPLICATION
USING HIGH-PRESSURE-RTM
MON-2_STG_5.09-04
CONTINUOUS IMPREGNATION
PROCESS BY FIXED ROLLERS
DOUBLE BELT PRESS
MON-2_AUG_4.02-04
IN-SITU X-RAY COMPUTED TOMOGRAPHY ANALYSIS OF ADHESIVELY BONDED RIVETED
LAP JOINTS
MON-2_ING_6.01-01
AEROELASTIC RESPONSE OF
SHAPE MEMORY ALLOY HYBRID COMPOSITE CYLINDRICAL SHELLS UNDER SUPERSONIC FLOW
MON-2_ATH_1.01-04
A MULTIPHYSIC APPROACH
TO PREDICT THE DEGRADATION OF A COMPOSITE MATERIAL DUE TO CURRENT INJECTION
Alfredo Faria (RWTH Aachen
University)
Mauricio Donadon (RWTH Aachen
University)
Jean Rivenc (Airbus Group) Richard Perraud (Airbus Group Innovations) Gilles Peres (Airbus
Group Innovations) Thierry Zink
(Airbus SAS) David Andissac (Airbus SAS) Richard Mills (Airbus
Operations) Jacques Cinquin (Airbus Group Innovations)
Xu Liu, Chen Tang, Shuai Xiong,
Siyuan Xi, Xiaohan Du, Yuefeng
Liu, Ying Wu, Zhenyu Wang, Xi
Shen, Qingbin Zheng
(Hong Kong University of Science
and Technology)
Highly sensitive strain sensors
based on graphene woven fabric/
polydimethylsiloxane composites
are developed and integrated into
a wearable musical instrument
which allows musician to easily
produce music with hand gestures through cellphones.
Sinan Kandemir (İZMİR INSTITUTE OF TECHNOLOGY) Yücel
Aydoğan (İZMİR INSTITUTE OF
TECHNOLOGY)
The aim of this study is to
disperse graphene nanoplatelets
(GNPs) into liquid aluminium.
0.5 wt.% GNPs were first incorporated into aluminium alloy under semi-solid stirring, and then
the composite was ultrasonically
treated in molten alloy.
MON-2_BRI_2.07-05
GRAPHENE-BASED HYBRID
MICROSTRUCTURES FOR INTERLAMINAR REINFORCEMENT OF FIBER-REINFORCED
POLYMERS
MON-2_NAP_2.06-05
DEVELOPMENT OF NANOSTRUCTURED ALUMINA-BASED METAL MATRIX
FUNCTIONALLY GRADED COMPOSITE COATINGS
Luis Carlos Herrera-Ramírez (IMDEA Materials Institute)
Roberto Guzman de Villoria (IMDEA Materials Institute)
Gobinda Saha (University of New
Brunswick)
Mohsen Mohammadi (University
of New Brunswick)
In this work, hybrid microparticles have been synthesized and
added to the interlaminar region
of laminate to modify their delamination behaviour. For comparison purposes, laminates with
graphite nanoplates have also
been produced.
This research paper present the
experimental results obtained
from high-energy mechanical
alloying of nanocrystalline alumina-nickel(chrome) composite
cermet under a set of design of
experiments, followed by thermal
spraying of the feedstock.
MON-2_BRI_2.07-06
HIERARCHICAL POLYPROPYLENE NANOCOMPOSITES
BASED ON GRAPHENE AND
CARBON FIBERS
MON-2_NAP_2.06-06
DEVELOPMENT OF UNTWISTED CARBON NANOTUBE YARN
WITH HIGH STRENGTH BY
HEAT TREATMENT
Susana Quiles-Díaz (Institute of
Polymer Science and Technology (ICTP-CSIC)) H. Salavagione
(Institute of Polymer Science
and Technology (ICTP-CSIC)) P.
Enrique (Institute for the Structure of Matter (IEM-CSIC)) Araceli
Flores (Institute for the Structure
of Matter (IEM-CSIC)) F. Ania (Institute for the Structure of Matter
(IEM-CSIC)) M. A. Gómez-Fatou
(Institute of Polymer Science and
Technology (ICTP-CSIC))
Taesung Kim (Waseda University)
Hidefumi Nikawa (HONDA R&D)
Atsushi Hosoi (Waseda University)
Hiroyuki Kawada (Waseda University)
Reinforced-hierarchical polymer
nanocomposites based on carbon
derivatives produces advanced
materials with significant improvement in their thermal, mechanical and electrical properties.
Untwisted carbon nanotube
yarns were fabricated by the dry
spinning method using a die and
graphitized in order to develop
CNT yarns with high strength and
stiffness.
Iván Sáenz Domínguez (Mondragon Unibertsitatea)
Iosu Tena (University of Mondragon)
Modesto Mateos (Mondragon
Unibertsitatea)
Mariasun Sarrionandia (Mondragon Unibertsitatea)
Jon Aurrekoetxea (Mondragon
Unibertsitatea)
The aim of this study is to compare two resins, unsatured polyester and styrene-free vinyl ester,
in order to demonstrate the suitability of the new styrene-free
resins.
Christian Koch (BMW Group) Andreas Nonn (BMW Group)
Franz Maidl (BMW Group)
Thomas Maurer (BMW Group)
Jochen Toepker (BMW Group)
Simon Bickerton (University of
Auckland)
Elisabeth Ladstätter (Technical
University of Munich / Institute
for Carbon Composites)
This study demonstrated the
correlation of CF-NCF permeability (in lateral and transverse
direction) measured at low, laboratory scale pressures, to results observed in preproduction
and production level processes
(high-pressure RTM).
Osuke Ishida (Kanazawa Institute
of Technology)
Gaku Fukushima (Kanazawa Institute of Technology)
Junichi Kitada (SANDVIK K.K.)
Toshihide Sekido (Kanazawa Institute of Technology)
Kiyoshi Uzawa (Kanazawa Institute of Technology)
The continuous impregnation
mechanism by fixed rollers double belt press was investigated.
The process model was developed
and evaluated experimentally.
That will lead to obtain optimum
process and improve machine
capability.
MON-2_LON_5.07-02
MODELLING AND SIMULATION
OF THE PULTRUSION PROCESS
WITH CLOSED INJECTION AND
IMPREGNATION MOLDS
MON-2_BOR_5.08-05
SLIP AND WRINKLE BEHAVIOR OF MULI-LAYERED FIBER
PREFORM IN RESIN TRANSFER
MOLDING PROCESS
MON-2_STG_5.09-05
DEVELOPMENT OF A NOVEL
CONSOLIDATION PROCESS
FOR CONTINUOUS-FIBER-REINFORCED THERMOPLASTICS
Renato Bezerra (Fraunhofer ICT)
Frank Henning (Karlsruhe Institute of Technology)
Dong Gi Seong (Korea Institute of
Materials Science)
Shin-O Kim (Korea Institute of
Materials Science)
Moon Kwang Um (Korea Institute
of Materials Science)
Sebastian Baumgärtner (Fraunhofer ICT)
Christoph Lohr (Karlsruhe Institute of Technology)
Frank Henning (Karlsruhe Institute of Technology)
Structural factors and process
conditions of fiber preform affecting the flow induced fiber deformation in resin transfer molding
are investigated by measuring
the related forces including friction and bulk stiffness of fiber
preform.
A novel consolidation approach
for thermoplactic composites was
developed, in which a vacuum
is used to apply pressure to the
laminate while infrared radiation
heats the thermoplastic material
through a transparent mold wall.
MON-2_BOR_5.08-06
SURFACE QUALITY CHARACTERISATION OF COMPOSITE
COMPONENTS FOR AEROSPACE APPLICATIONS
MON-2_STG_5.09-06
DEVELOPMENT OF AN ADDITIVE MANUFACTURING PROCESS FOR THE PROCESSING
OF ENDLESS FIBER REINFORCED POLYMERS
Simulation models of pultrusion
dies with injection and impregnation chambers are presented. Two
different mold inlet geometries
are studied. Velocity and pressure
fields, temperature, degree of
cure and viscosity evolution are
determined.
MON-2_LON_5.07-03
OPTICAL PROCESS MODEL
FOR LASER-ASSISTED TAPE
WINDING
Jasper Reichardt (University of
Twente)
Ismet Baran (University of
Twente)
Remko Akkerman (University of
Twente)
An optical process model for the
laser-assisted tape winding process is developed. The proposed
optical model is coupled to a thermal model to assess the sensitivity of the nip-point temperature to
optical process parameters.
Peter Schubel (University of Nottingham)
Xuesen Zeng (University of Nottingham)
Julien Lorrillard (Aircelle Ltd, SAFRAN Group)
Harshad Mistry (Aircelle Ltd, SAFRAN Group)
Ian Taylor (Aircelle Ltd, SAFRAN
Group)
This study focuses on benchmarking Class-A surface finish of
composite components processed
through vacuum assisted resin
transfer moulding (VARTM) for
use in the aerospace sector.
Matthias Domm (Institute for
Composite Materials)
Jonas Fischer (Institute for Composite Materials)
Peter Mitschang (Institute for
Composite Materials)
Polymer parts manufactured by
Additive Manufacturing are limited in their achievable mechanical
properties. In order to face this
drawback, a concept was developed to process continuous fiber
reinforced polymers with Additive
Manufacturing.
René Füßel (Technical University
of Dresden)
Maik Gude (Technical University
of Dresden)
Achim Mertel (Leichtbau-Zentrum
Sachsen)
The paper describes a new approach for analysing damage and
failure phenomena in combined
hybrid joints. A combination of
destructive and non-destructive
test methods makes it feasible to
detect crack initiation and propagation in single-lap joints.
MON-2_AUG_4.02-05
MECHANISMS OF AIR REMOVAL AND VOID DEVELOPMENT
IN OUT-OF-AUTOCLAVE PROCESSING OF HAND LAY-UP
LAMINATES
Juan José Torres (IMDEA Materials) Federico Sket (IMDEA Materials Institute)
Carlos González (Polytechnic University of Madrid & IMDEA Materials Institute)
M. Simmons (Hexcel Composites)
This paper investigates a particularly important structural characteristic of SMAHC laminates:
the aeroelastic stability boundary
of flutter.
MON-2_ING_6.01-02
CONTROLLABLE STIFFNESS
COMPOSITES: AN OVERVIEW
Alexander Bismarck (University
of Vienna)
Henry Maples (University of
Vienna)
Charnwit Tridech (Imperial College London)
Bohao Zhang (Imperial College
London)
Paul Robinson (Imperial College
London)
The aim of this study is to understand the void formation,
transport mechanisms and porosity evolution during OoA consolidation process in laminates
produced by hand lay-up (HLU)
and cured in an industrial oven,
using vacuum bag only (VBO)
technique.
Composites with controllable
stiffness have a number of potential applications including their
use as skin materials in morphing aerostructures. Concepts to
realise such composites will be
discussed.
MON-2_AUG_4.02-06
QUANTITATIVE EVALUATION
OF INDUCED POROSITY REFERENCE SAMPLES IMPLEMENTED
BY DRILL HOLE IN CFRP USING
XCT AND VARIOUS SEGMENTATION PARAMETERS
MON-2_ING_6.01-03
ELECTRICAL SELF-SENSING OF
DAMAGE WITHIN COMPOSITE
STRUCTURES
Guruprasad Rao (FH OÖ Forschungs & Entwicklungs GmbH)
Bernhard Plank (University of
Applied Sciences Upper Austria)
Christoph Heinzl (University of
Applied Sciences Upper Austria)
Johann Kastner (University of Applied Sciences Upper Austria)
This paper is regarding volume
porosity evaluation in CFRP using
XCT by implanting known amount
of voids. Drilling of holes of 200
and 300 µm is performed. Scans
at various voxel sizes are analysed. Repeatability is checked
and verified.
Ahmed Alsaadi (University of
Sheffield)
S. A. Hayes (University of Sheffield)
Health monitoring of CFRP laminates was investigated by using
electrical resistance technique.
A practical sensing procedure,
which focuses on low cost and
high sensitivity, was applied to
monitor and identify damage in
fabric CFRP.
11:30
An study is performed in order
to analyse the degradation of
a composite material when a
short-circuit current flows in the
structure. A multiphysics model
is developed in order to predict
the shape and the depth of the
degradation.
MON-2_ATH_1.01-05
INNOVATIVE TOOL AND PROCESS CONCEPT FOR DRILLING CFRP/TITANIUM STACK
MATERIAL
11:50
Marco Schneider (Fraunhofer IPA)
Andreas Gebhardt (Fraunhofer IPA)
Philipp Esch (Fraunhofer IPA)
An innovative tooling concept for
drilling lightweight stack material
is developed and presented. The
counter drilling concept achieves
higher tool performance and quality output.
MON-2_ATH_1.01-06
DEVELOPMENT OF CARBON
FIBER REINFORCED PLASTIC
FITTINGS TO ATTACH RODS IN
CENTRAL WING BOX OF AIRBUS AIRCRAFT
12:10
Jerome Terrazzoni (Airbus Operations)
Jean-Brice Rousset (Airbus Operations)
Florent Fauchery (SKF Aerospace)
Jean-Michel Buchin (SKF Aerospace)
Carbon fiber reinforced plastic fitting is developed by SKF
Aerospace using unfolding concept (patented) for use in Airbus
A350 eXtra Wide Body aircraft
for weight saving purpose. Specimens are tested to check compliance with requirements.
33
MON-2
12:30
MONDAY
12:50
Munich (MUC)
Seville (SEV)
Venice (VEN)
Budapest (BUD)
Stockholm (STO)
Biarritz (BIA)
MON-2_MUC_3.01-07
DETECTION OF MICROCRACK
INITIATION IN EPOXY MATRIX MATERIAL WITH USE OF
ACOUSTIC EMISSION
MON-2_SEV_3.07-07
INFLUENCE OF 90° LAYER
THICKNESS ON DAMAGE INITIATION AND PROPAGATION IN
CFRP CROSS-PLY LAMINATES
MON-2_VEN_3.06-07
COUPLED STRESS AND ENERGY ANALYSIS OF CRACK ONSET IN TEXTILE COMPOSITES
AT THE MESOSCOPIC SCALE
Christian Leopold (Technische
Universität Hamburg-Harburg)
Sergej Harder (Technische Universität Hamburg-Harburg)
Christina Buggisch (Technische
Universität Hamburg-Harburg)
Wilfried Liebig (Technische Universität Hamburg-Harburg)
Bodo Fiedler (Technische Universität Hamburg-Harburg)
Martin Hirsekorn (ONERA-The
French aerospace Lab)
Aurélien Doitrand (ONERA-The
French aerospace Lab)
Christian Fagiano (ONERA-The
French aerospace Lab)
Vincent Chiaruttini (ONERA-The
French aerospace Lab)
MON-2_STO_3.21-04
EFFECT OF THE COVER FACTOR
OF 2D BIAXIAL AND TRIAXIAL BRAIDED CARBON COMPOSITES ON THEIR IN-PLANE
LAMINATE PROPERTIES
MON-2_BIA_3.11-07
ELASTIC STRESS OR STRAIN
THRESHOLD FOR CARBON/EPOXY MATERIALS BEHAVIOR
Krzysztof Konsztowicz (University
of Bielsko-Biala)
Marek Nowak (Cracow University
of Technology)
Ireneusz Baran (Cracow University of Technology)
Magdalena Ziąbka (AGH University of Science and Technology)
Jan Chłopek (AGH University of
Science and Technology)
MON-2_BUD_3.04-07
ENHANCEMENT OF FRACTURE
RESISTANCE OF COMPOSITE
LAMINATES BY THE CREATION
OF MULTIPLE DELAMINATIONS
Bent F. Sørensen (Technical University of Denmark)
Stergios Goutianos (Technical
University of Denmark)
Frieder Heieck (University of
Stuttgart)
Peter Middendorf (University of
Stuttgart)
Detection of micro-crack initiation in neat epoxy resin was studied in SBS tests using Acoustic
Emission and SEM. Micro-cracks
with size of a few μm and more
were found before failure, forming near structural irregularities
of epoxy resin.
The influence of layer thickness
on failure initiation and damage
propagation as matrix cracks in
the 90°-layers of cross-ply laminates is investigated experimentally and simulated by using finite
element simulation.
MON-2_MUC_3.01-08
DISCRETIZING THE DEFORMATION WITHIN A STRESS
BASED FUNCTIONALLY GRADED INTERPHASE IN A MICROMECHANICS COMPOSITE
MODEL
MON-2_SEV_3.07-08
SELECTIVE PLY-LEVEL HYBRIDISATION FOR IMPROVED
NOTCHED RESPONSE
Trevor Sabiston (University of
Waterloo) Mohsen Mohammadi
(University of New Brunswick)
Mohammed Cherkaoui (Georgia
Institute of Technology) Kaan Inal
(University of Waterloo)
Albertino Arteiro (DEMeUniversidade do Porto)
Carolina Furtado (DEMeUniversidade do Porto)
Giuseppe Catalanotti (INEGI)
José Xavier (Universidade de Trásos-Montes e Alto Douro)
Pedro Camanho (University of
Porto)
A new micromechanics frame
work is proposed, where a functionally graded interphase is
used to account for the force
transfer between the matrix and
the reinforcements to predict the
multi-axial response of unidirectional composites.
Selective ply-level hybridisation, where thin off-axis plies are
combined with thicker 0° plies,
results in an unnotched response
equivalent to the thin-ply laminate, but enhances the notched
response as compared to thinand blocked-ply laminates.
The energy condition allows for
an estimation of the initiation
location and length of transverse
yarn cracks, and the subsequent
yarn-yarn decohesion. The use
of a stress criterion alone significantly underestimates the strain
at damage onset.
MON-2_VEN_3.06-08
DAMAGE MECHANISM IN
OPEN HOLE CARBON TEXTILE
REINFORCED EPOXY COMPOSITES
Valter Carvelli (Politecnico di
Milano)
Kazuya Okubo (Doshisha University)
Toru Fujii (Doshisha University)
In this experimental investigation
the damage mechanisms and the
damage evolution were observed
during tensile quasi-static and cyclic loadings of open hole carbon
balanced plain weave reinforced
epoxy laminates.
Cohesive zone modelling is used
to study delamination. A secondary crack can open when the peak
traction value of its cohesive law
is less than that of the primary
crack and the layer between the
two interfaces is sufficiently thin.
MON-2_BUD_3.04-08
FATIGUE CRACK GROWTH
IN MODE II OF ADHESIVELY
JOINED COMPOSITES
MON-2_STO_3.21-05
EFFECT OF VOIDS ON INTERLAMINAR BEHAVIOUR OF CARBON/EPOXY COMPOSITES
Anders Biel (Technical University
of Denmark)
Helmuth Toftegaard (Technical
University of Denmark)
Iryna Gagauz (University of
Bristol)
Luiz Kawashita (University of
Bristol)
Stephen Hallett (University of
Bristol)
Experiments are performed, to
derive fatigue crack propagation
data of adhesively joined composites loaded in shear.
13:10
In this work an investigation of
void influence on the interlaminar
shear strength of carbon/epoxy
composites was performed using
void morphology analysis. The
results are useful to understand
the material behaviour and refine
numerical models.
Bruges (BRU)
MON-2_BRU_2.02-07
DIELECTRIC PROPERTIES OF
POLYSTRENE/ALUMINA COMPOSITES FOR MICROELECTRONIC DEVICES
Magali Castres (ONERA-The
French aerospace Lab)
Julien Berthe (ONERA-The French
aerospace Lab)
Mathias Brieu (Ecole Centrale
de Lille)
Eric Deletombe (ONERA-The
French aerospace Lab)
Bahar Basturk (Celal Bayar University)
Emre Yalamaç (Celal Bayar University)
Serdar Gültekin (Celal Bayar University)
In this study, the dielectric properties of pure PS and PS/Al2O3
composites were investigated
which may be an alternative material system as the substrate
component of printed circuit
boards-PCBs.
Composite materials are widely
used in the aeronautical industry.
The behaviour of such materials
can be splitted into two domains
a first linear and a second non
linear. In this work the transition
between the linear and non linear
part is studied.
MON-2_BIA_3.11-08
AN EXPERIMENTAL STUDY
OF THE MODE I INTERLAMINAR FRACTURE TOUGHNESS
OF VECTRAN/EPOXY COMPOSITES
MON-2_BRU_2.02-08
DOSE CONTROL OF DOUBLE-SIDED IRRADIATION FOR
POLYMER-MATRIX COMPOSITES FABRICATED BY IN-SITU
CURING WITH LOW ENERGY
E-BEAM
Syed Idros Syed Abdullah (Imperial College London)
Lorenzo Iannucci (Imperial College London)
Emile Greenhalgh (Imperial College London)
Jingjing Zhang (Xi’an Jiaotong
University)
Yugang Duan (Xi’an Jiaotong University)
Xinming Zhao (Armoured Engineering Institute)
Ben Wang (Xi’an Jiaotong University)
Mode I interlaminar fracture
toughness of Vectran/Epoxy is
investigated and compared with
UD CF/Epoxy. The interlaminar
fracture toughness of Vectran/Epoxy was found to be significantly
higher than CF/Epoxy, thus providing better impact protection.
Dose control of double-sided irradiation for polymer-matrix composites fabricated by in-situ curing with low energy E-Beam
Lunch Break
14:10
MON-3
15:00
Keynote lecture 1 (MUC) by Francisco Chinesta, École Centrale de Nantes, France: ADVANCED MODELING AND REAL TIME SIMULATION OF COMPOSITES MANUFACTURING PROCESSES: REALIZING TECHNOLOGICAL DREAMS
Keynote lecture 2 (BIA) by Stepan V. Lomov, Katholieke Universiteit Leuven, Belgium: MULTI-SCALE MODELLING OF SPATIAL VARIABILITY IN TEXTILE COMPOSITES: UNCERTAINTY QUANTIFICATION BASED ON EXPERIMENTAL DATA OF INTERNAL GEOMETRY
3.01 Fracture and Damage - Micromechanics (3/8)
3.07 Thin Ply Composites (3/3)
3.06 Textile Composites (3/6)
3.04 Delamination (3/4)
3.21 Effects of Manufacturing Effects (EoE) (2/2)
3.11 Dynamic Loading - Impact,
Crash, Blast (3/6)
MON-3_MUC_3.01-09
EVALUATION OF INTERFACIAL
STRENGTH IN MICRODROPLET TEST USING EXPERIMENT
AND COMPUTATIONAL SIMULATION
MON-3_SEV_3.07-09
STUDY ON THE STRENGTH OF
THIN-PLY LAMINATES OF CFRP
UNDER INTERLAMINAR SHEAR
LOADINGS
MON-3_VEN_3.06-09
ENVIRONMENTAL EFFECTS ON
HIGH TEMPERATURE FATIGUE
OF CARBON-POLYIMIDE TEXTILE COMPOSITES FOR AIRCRAFT APPLICATIONS
MON-3_BUD_3.04-09
INITIATION OF DELAMINATIONS INDUCED BY TRANSVERSE CRACKS IN CROSS-PLY
LAMINATES UNDER STATIC
LOADINGS: MODELLING AND
EXPERIMENTS
MON-3_STO_3.21-06
EFFECTS OF PROCESS-INDUCED FIBER BUNDLE WAVINESS ON THE MECHANICAL
PROPERTIES OF CARBON FIBER REINFORCED THERMOPLASTIC COMPOSITES
Elisa Novello (University of Padova)
Paolo Andrea Carraro (University
of Padova)
Michele Zappalorto (University
of Padova)
Marino Quaresimin (University
of Padova)
Tomohiro Yokozeki (University
of Tokyo)
Kotaro Akakabe (University of
Tokyo)
Takahira Aoki (University of
Tokyo)
Akira Kobiki (IHI corporation)
MON-3_BIA_3.11-09
EXPERIMENTAL CHARACTERIZATION OF THE OUT-OFPLANE SHEAR STRENGTH
OF ULTRA-HIGH-MOLECULAR WEIGHT POLYETHYLENE
COMPOSITE BY USING THE
SPLIT-HOPKINSON BAR DEVICE
Maria Luisa Ruiz Ripoll (Fraunhofer EMI)
Oliver Millon (Fraunhofer EMI)
Torsten Lässig (Fraunhofer EMI)
Werner Riedel (Fraunhofer EMI)
This study experimentally investigates the quantitative measurement of fiber bundle waviness
in unidirectional CFRTP using
the microscope and the X-ray CT
scanning. Flexural strength deterioration is evaluated as a function
of the waviness parameter.
The quasi-static and dynamic
out-of-plane shear behavior of
UHMW-PE composite is experimentally characterized. A new
testing method for the measurement of out-of-plane strength and
stiffness using Split Hopkinson
Bar is presented.
Mio Sato (Tokyo University of
Science)
Erina Imai (Tokyo University of
Science)
Jun Koyanagi (Tokyo University
of Science)
This paper presents an evaluation
method for fiber/matrix interfacial strength. In this study, we
determine interfacial strength
by comparing experimental data
with FEM computational simulations of the microdroplet tests.
34
The effect of the cover factor on
the in-plane mechanical properties of biaxial and triaxial braided
carbon fiber composites is investigated. A method of optically measuring the cover factor is
presented.
Rhodes (RHO)
Huang Chunfang (NUDT)
Jiang Dazhi (National University
of Defense Technology)
Mingchang He (National University of Defense Technology)
Jiayo Xiao (National University of
Defense Technology)
Qing Zheng (National University
of Defense Technology)
Su Ju (National University of Defense Technology)
In this paper, interlaminar shear
strength of a carbon fiber/epoxy
thin-ply laminates under shortbeam bending loads was investigated. Loading-deflection curves
of the laminate specimens were
obtained.
Federico Foti (ENSMA)
Marco Gigliotti (ENSMA)
Yannick Pannier (ENSMA)
D. Mellier (ENSMA)
Fatigue test on carbon fiber/ polyimide matrix composite samples
are performed under controlled
environment at 250°C. Digital
Image Correlation and µCT scans
are used, respectively, to measure
strain at the sample surface and
for damage assessment.
In the present work, the delamination onset induced by the
presence of transverse cracks in
cross-ply laminates subjected to
static loadings is thoroughly investigated, both analytically and
experimentally.
Industry Session 1
2.02 Polymer Matrix Materials (3/4)
MON-3_BRU_2.02-09
EFFECTS OF SILANIZED NANODIAMOND ON THE MECHANICAL AND DYNAMIC-MECHANICAL PROPERTIES OF
POLY(DIMETHYL SILOXANE)
NANOCOMPOSITES
Presentations of the Sponsoring and Exhibiting Companies
Faezeh Hajiali (Sharif University
of Technology)
Akabr Shojaei (Sharif University
of Technology)
It was found that silanized nanodiamond that the young’s modulus and tensile strength of PDMS
enhanced 25% and 70%, respectively, by adding 0.2 wt% sND.
Brighton (BRI)
MON-2_BRI_2.07-07
STUDY ON CONDUCTIVITY
OF POLY(ANILINE SULFONIC
ACID) (PAS) /GRAPHENE OXIDE (GO) COMPOSITES
Shigeji Konagaya (Nagoya Industrial Science Research Institute)
Mariko Terada (Nagoya University)
The conductivity enhancement
of PAS/GO thin film solids is ascribed to the promotion of thermal reduction of GO to rGO by
SO3H groups in PAS.
MON-2_BRI_2.07-08
MECHANICAL AND DIELECTRIC
PROPERTIES OF POLYHEDRAL
OLIGOMERIC SILSESQUIOXANES MODIFIED GRAPHENE
OXIDE/POLYIMIDE NANOCOMPOSITES
Chen-Chi Ma, Sheng-Chi Lin, JengAn Wang, Wei-Hao Liao, ShengTsung Hsiao, Yu-Sheng Wang,
Shin-Ming Li (National Tsing Hua
University)
Octa(aminophenyl) silsesquioxane (OAPS) functionalized
graphene oxide (GO) reinforced
polyimide (PI) composites; 3.0 wt
% OAPS-GO exhibited 11.2-folds
increase in tensile strength compared with neat PI; Dk value of
1.9 was achieved.
Naples (NAP)
London (LON)
MON-2_NAP_2.06-07
EFFECT OF INFRARED LASER
IRRADIATION ON THE PIEZOELECTRIC PROPERTIES OF
THE TIO2 COATED MWCNT REINFORCED PVDF FILM
MON-2_LON_5.07-04
PROCESS INDUCED TRANSVERSE SHEAR STRESSES IN
THICK UNIDIRECTIONAL PULTRUDED PROFILES
Da Hye Kim (JBNU)
Kun Jeong (Chonbuk National
University)
Seong Su Kim (Chonbuk National
University)
In this work, MWCNTs were coated with anatase TiO2 nanoparticles by hydrothermal process and
Infrared radiation was applied
to TiO2 coated MWCNT/PVDF
solution to enhance the interaction between the TiO2 coated
MWCNT nanoparticles and F atoms of PVDF.
Ismet Baran (University of
Twente)
Remko Akkerman (University of
Twente)
The residual transverse stresses
might be critical for UD composites since their transverse shear
strength is relatively low. In this
paper, the process induced tranverse shear stresses are predicted
for a UD 100x100 mm pultruded
square profile.
Bordeaux (BOR)
MON-2_BOR_5.08-07
RESIN FLOW IN COMPRESSION MOLDING PROCESSES
Paul Bockelmann (Technical University of Munich / Institute for
Carbon Composites)
Johannes Maierhofer (Technical
University of Munich)
Jan Krollmann (Technical University of Munich) Swen Zaremba
(Technical University of Munich
/Institute for Carbon Composites) Klaus Drechsler (Technical
University of Munich / Institute
for Carbon Composites) Pierre
Mertiny (University of Alberta)
Resin flow of two variants of
compression molding were visually investigated with fluorescent
photography. It was found that
process parameters and the type
of matrix pre-application strongly
determine resin distribution after
compression.
Stuttgart (STG)
MON-2_STG_5.09-07
DEVELOPMENT OF COMMINGLING NOZZLES FOR HYBRID
YARN PRODUCTION BY CFD
SIMULATION
Klaus Vonberg (RWTH Aachen
University)
Thomas Gries (RWTH Aachen
University)
Gunnar Seide (RWTH Aachen
University)
The technique of Computational
Fluid Dynamics is useful to analyse the flow field inside commingling nozzles. In the frame of this
paper the procedure during the
simulation is described and related to the commingling process.
Augsburg (AUG)
MON-2_AUG_4.02-07
THREE-DIMENSIONAL CHARACTERIZATION OF STRUCTURE
AND DAMAGE OF POLYMERS
USING A TALBOT-LAU GRATING INTERFEROMETER µ-XCT
Johann Kastner, Sascha Senck,
Bernhard Plank, Dietmar Salaberger (University of Applied
Sciences Upper Austria)
Guruprasad Rao (FH OÖ Forschungs & Entwicklungs GmbH)
Christian Gusenbauer (University of Applied Sciences Upper
Austria)
We present results of a novel Talbot-Lau grating interferometry
desktop µ-XCT-system which are
compared to conventional high
resolution XCT-results. Three different kind of damages in composites are characterized: impact,
tensile and cyclic loading.
MON-2_NAP_2.06-08
EFFECT OF MOISTURE ON
ELECTRICAL RESISTIVITY
OF CNT REINFORCED EPOXY
NANOCOMPOSITES
MON-2_LON_5.07-05
VALIDATION OF RING FILAMENT WOUND FIBER PATHS
FOR UNIDIRECTIONAL PREFORM PLY MANUFACTURING
MON-2_AUG_4.02-08
ULTRA-FAST TIME-LAPSE SYNCHROTRON RADIATION IMAGING OF COMPRESSIVE FAILURE IN UD CFRP
Sima Navabizadeh (Concordia
University)
Suong V. Hoa (Concordia University)
Daniel Rosca (Concordia University)
Felipe Alberto Finkenwerder (Airbus Group Innovations)
Matthias Geistbeck (Airbus Group
Innovations)
Peter Middendorf (University of
Stuttgart)
Ying Wang, Serafina Consuelo
Garcea, Tristan Lowe (University
of Manchester) Eric Maire (INSA
de Lyon) Costas Soutis (University of Manchester) Philip J. Withers
(University of Manchester)
We investigate the effect of moisture on the electrical resistivity of
epoxy containing CNT. The effect
of different type, and different
concentrations of nanotubes on
the rate of diffusion as well as the
maximum amount of water absorbed were studied.
The objective of the present
study is to validate geodesic and
non-geodesic trajectories at room
temperature conditions by unidirectional ring filament winding.
In this paper, the compressive
failure of unidirectional carbon fibre/epoxy composite rods is studied using ultra-fast time-lapse
synchrotron X-ray imaging, involving both two-dimensional radiography and three-dimensional
computed tomography.
Ingolstadt (ING)
Athens (ATH)
MON-2_ING_6.01-04 FUNCTION INTEGRATION FOR
INJECTION MOULDED
STRUCTURES USING FIBRE
REINFORCED GRIDS
MON-2_ATH_1.01-07
FATIGUE SUBSTANTIATION
AND DAMAGE TOLERANCE
EVALUATION OF FIBER COMPOSITE H145 COMPONENTS
Martin Pohl (Technical University
of Dresden)
Robert Kupfer (Technical University of Dresden)
Niels Modler (Technical University of Dresden)
Max Wedekind (Airbus Helicopters)
Christeline Salmon (Airbus Helicopters)
Elif Ahci (Airbus Helicopters)
Multiaxial textile grids with integrated wires can be used for both,
reinforcement of injection moulded structures and electrical function integration. To connect electronic components to the wires,
various contact technologies are
evaluated.
MON-2_ING_6.01-05
INTERLEAVING FOR EASY REPAIR OF INTERLAMINAR DAMAGE - CAN IT BE DONE?
Paul Robinson (Imperial College
London)
Bohao Zhang (Imperial College
London)
Alexander Bismarck (University
of Vienna)
Henry Maples (University of
Vienna)
An easy-repair laminate concept
is investigated to address the repair problem posed by interlaminar damage due to impact. Good
strength recovery is achieved
when the laminate is heated and
subjected to external pressure.
The new EASA rules for helicopter
certification, §27/29.571 and 573
respectively, require a flaw tolerant fatigue substantiation. Within
this paper the flaw tolerant safe
life substantiation is shown for
different composite components.
MON-2_ATH_1.01-08
FORMING THE FUTURE:
STRUCTURAL APPLICATIONS
FOR FIBRE REINFORCED
THERMOPLASTICS IN NEXT
GENERATION AIRFRAMES
Premium AEROTEC has developed from scratch a process for
the production of complex detailed parts reinforced with unidirectional thermoplastic tapes.
The developed process meets all
requirements concerning production stability and part quality.
13:10
Keynote lecture 4 (STG) by Gerald Pinter, Montanuniversität Leoben and Polymer Competence Center Leoben, Austria: ADVANCED TECHNIQUES FOR THE CHARACTERIZATION OF FATIGUE IN SHORT AND CONTINUOUS FIBRE REINFORCED POLYMER MATRIX COMPOSITES
2.07 Graphene, Graphene-Based
Composites (3/4)
2.06 Nano Composites (3/7)
5.06 Automated Placement Technologies (1/5)
5.02 Process Simulation II - Curing & PID (1/2)
5.09 Manufacturing Processes for
Thermoplastic Composites (3/7)
4.04 Micro- and Nano-Scale Test
Methods (1/1)
6.01 Smart Structures (2/2)
1.01 Aerospace (3/6)
MON-3_BRI_2.07-09
MECHANICAL REINFORCEMENT OF CROSSLINKED
CYCLOSILOXANE BASED
POLYMER NETWORK WITH
BASAL-PLANE FUNCTIONALIZED GRAPHENE AT EXTREMELY LOW LOADING
MON-3_NAP_2.06-09
EXPERIMENTAL METHODS
AND RESULTS FOR THE REDUCTION OF RESIN SHRINKAGE BY THE ADDITION OF
NANOPARTICLES FOR INCREASED DIMENSIONAL ACCURACY OF CARBON FIBER
REINFORCED PLASTICS
MON-3_LON_5.06-01
AUTOMATED FIBRE PLACEMENT EDGE OF PLY ACCURACY
WITH RESPECT TO MACHINE
PERFORMANCE AND DESIGN
MON-3_BOR_5.02-01
DEVELOPMENT OF A NUMERICAL APPROACH TO PREDICT
PROCESS INDUCED DEFORMATIONS DURING CURE OF
FIBRE-REINFORCED STRUCTURES
MON-3_STG_5.09-08
DIRECT THERMOPLASTIC
MELT IMPREGNATION OF CARBON FIBRE FABRICS BY INJECTION MOULDING
MON-3_AUG_4.04-01
CHARACTERIZATION OF INTERPHASES BY NANOMECHANICAL MAPPING AND
CORRELATION WITH MACROSCOPIC MECHANICAL PROPERTIES
MON-3_ING_6.01-06
MODELLING THE CORRELATION BETWEEN THE DAMAGE
STATE AND THE ELECTRICAL
RESISTANCE CHANGE IN SYMMETRIC LAMINATES
MON-3_ATH_1.01-09
FULL SCALE STATIC TEST OF
A LIGHTWEIGHT COMPOSITE
STRUCTURE
Yu-jie Song (Nanyang Technological
University) Xiu-zhi Tang (Nanyang
Technological University) Yen Nan
Liang (Nanyang Technological University) Chen-zhong Mu (Nanyang
Technological University) Ming Liu
(Nanyang Technological University)
Xiao Hu (Nanyang Technological
University)
Nanocomposites with loading of
graphene (=< 0.1 wt%) were fabricated and the improvement of
mechanical properties were investigated. The reinforcing mechanism of low loading graphene
were studied.
Wibke Exner (German Aerospace
Center)
Peter Wierach (German Aerospace Center)
Process-induced distortions of
carbon fiber reinforced plastics
are a result of the resins chemical
and thermal shrinkage. The addition of nanoparticles is one way
to overcome this problem. Experimental methods and results are
presented.
Ashley Barnes (Rolls-Royce / University of Bristol)
James Tingle (Rolls-Royce Plc)
James Lee (Rolls-Royce Plc)
In an experimental study, a series
of 12 ply laminates were Automated Fibre Placed and measured
for the edge of ply accuracy to
nominal definition, determining
process capability and key error
contributions.
A. Vandenbrande (Technical University of Dresden)
Uwe Schuster (Technical University of Dresden)
Andreas Hauffe (Technical University of Dresden)
Klaus Wolf (Technical University
of Dresden)
Shape distortions of prepreg
structures occurring during autoclave cycles are a common
problem. A new method has been
developed, where the springin of complex structures can be
predicted very accurate, fast and
without excessive experimental effort.
12:50
Robert Jarczyk, Lukas Meis,
Tim Neitzel, Klaus Edelmann,
Angelos Miaris (Premium AEROTEC GmbH)
Lunch Break
Keynote lecture 3 (NAP) by Jinson Leng, Harbin Institute of Technology, China: ACTIVE DEFORMABLE COMPOSITE STRUCTURES:
OPPORTUNITIES AND CHALLENGES
12:30
Julia Studer (Institute of Polymer
Engineering, FHNW)
Clemens Dransfeld (University of
Applied Sciences and Arts Northwestern Switzerland)
Bodo Fiedler (Technische Universität Hamburg-Harburg)
The influence of the fabric architecture on the processing window
for a through-thickness impregnation with thermoplastic melt is
discussed by implementing the
experimental compaction and
permeability behaviour of two
fabrics in a numerical analysis.
Lenaik Belec (University Toulon Var)
Nicolas Spitz (University Toulon Var)
Jean-François Chailan (University
of Toulon)
The heterogeneity of the matrix
in UD glass fibre/epoxy composites is shown by Atomic Force
Microscopy with a quantitative
nano-mechanical mode. The results are compared to static and
dynamic mechanical tests.
Paolo Andrea Carraro (University
of Padova)
Francesco Panozzo (University
of Padova)
Marino Quaresimin (University
of Padova)
Michele Zappalorto (University
of Padova)
A closed form solution is presented to predict the variation of the
electrical resistance change in
conductive laminates, caused by
matrix cracking in one layer. The
accuracy of the proposed model
is verified by comparison to a
bulk of FE analyses.
14:10
15:00
Barbara Goller (Intales GmbH)
Manfred Gratt (Intales GmbH)
Federico Simonelli (FACC Aerostructures)
A full scale static test of a lightweight composite structure is
described, where all steps of load
calibration, test preparation and
monitoring are discussed. Also
methods for assessing the data
and comparison with the FE-model are presented.
35
15:20
MON-3
MONDAY
15:40
Munich (MUC)
Seville (SEV)
MON-3_MUC_3.01-10
EXAMINATION OF DELAMINATION MIGRATION THROUGH
MICRO-SCALE SIMULATION
MON-3_SEV_3.07-10
TESTING AND MODELLING OF
TENSION AFTER IMPACT OF A
THIN PLY TEXTILE COMPOSITE
David Mollenhauer (Air Force Research Laboratory)
Eric Zhou (University of Dayton)
Endel Iarve (University of Texas
Arlington)
Michael Braginsky (University of
Texas Arlington)
Kevin Hoos (University of Dayton)
Timothy Breitzman (U.S. Air Force
Research Laboratory)
Dan Rapking (Wright State University)
Robin Olsson (Swerea SICOMP)
Fredrik Ahlqvist (Swerea SICOMP)
Alann Andre (Swerea SICOMP)
Peter Hellström (Swerea SICOMP)
Elena Álvarez (Oxeon)
Emilio González (AMADE, Universidad de Girona)
Jose Ramon Sainz (Aernnova Engineering Solutions Ibérica S.A.)
Federico Martin De La Escalera
(Aernnova Engineering Solutions
Ibérica S.A.)
Delamination migration is examined through a multi-scale,
global-local modeling approach
that incorporates Regularized
eXtended Finite Element representations of matrix cracking at
a homogenized ply-level to a micro-scale level.
Experiments and FE-simulation
of impact response, damage and
tensile strength after impact of
quasi-isotropic laminates from
thin ply CFRP weaves. Fibre fracture, matrix cracks and delaminations were studied by deplying,
microscopy and C-scan.
MON-3_MUC_3.01-11
EXPERIMENTAL INVESTIGATION OF DAMAGE TRANSITION IN THERMOPLASTIC
COMPOSITES AT THE MICROSCALE
MON-3_SEV_3.07-11
TOWARD AEROSPACE GRADE
THIN-PLY COMPOSITES
Arief Yudhanto (King Abdullah
University of Science and Technology (KAUST))
Husam Wafei (King Abdullah University of Science and Technology
(KAUST))
Gilles Lubineau (King Abdullah
University of Science and Technology (KAUST))
Nikhil Verghese (SABIC T&I Corporate Research & Development,
Composites)
Recep Yaldiz (SABIC T&I Corporate Research & Development,
Composites)
Transition from transverse crack
into delamination in thermoplastic composites is investigated
microscopically by micro-scale
3-point bending test. Crack speed
and influence of fibrillation in the
wake of crack are discussed.
16:00
MON-3_MUC_3.01-12
FINITE ELEMENT SIMULATION
OF NANO-FILAMENTS PULLOUT FROM CEMENTITIOUS
NANOCOMPOSITE MATERIALS USING AN ELASTIC-PLASTIC-DAMAGE AND COHESIVE
SURFACE MODELS
Rashid Abu Al Rub (Masdar Institute of Science and Technology)
The main focus of this work is on
investigating computationally the
pull-out behavior of nano-filaments from the cement matrix.
16:20
36
Robin Amacher (Lab. of Applied
Mechanics and Reliability Analysis, EPFL) Joel Cugnoni (Ecole
Polytechnique Fédérale de Lausanne) Jens Brunner (Institute of
Polymer Engineering, FHNW)
Erich Kramer (Institute of Polymer Engineering, FHNW)
Clemens Dransfeld (University of
Applied Sciences and Arts Northwestern Switzerland)
Wayne Smith (North Thin Ply
Technology) Kenneth Scobbie
(Huntsman Advanced Material)
L. Sorensen (RUAG Aerostructures) John Botsis (Ecole Polytechnique Fédérale de Lausanne)
A new aerospace grade thin-ply
composite is developed. It has
outstanding CAI performance
and a strong size-effect. Two hybrid versions enable to tune it
with much improved translaminar toughness and even a pseudo-ductile behaviour where
needed.
Venice (VEN)
Budapest (BUD)
MON-3_VEN_3.06-10
NUMERICAL INVESTIGATION
OF BRAIDED BASALT FIBER
BRAIDS FOR POLYMER COMPOSITES
MON-3_BUD_3.04-10
MODELING DELAMINATION
MIGRATION IN MULTI-DIRECTIONAL COMPOSITE LAMINATES
Yordan Kyosev (Hochschule Niederrhein)
Alena Cordes (Hochschule Niederrhein)
Tong-Earn Tay (National University of Singapore)
X.F. Hu (National University of
Singapore)
M. Tirvaudey (École normale
supérieure de Cachan)
Vincent B.C. Tan (National University of Singapore)
This paper presents analysis of
the possibilities of WiseTex and
TexMind Braider for generation of
the geometry of flat braids, produced of basalt fibers rowings.
MON-3_VEN_3.06-11
EXPERIMENTAL CHARACTERIZATION OF TRIAXIAL BRAIDED
COMPOSITES
Alejandro García-Carpintero (IMDEA Materials Institute)
J.W. Roelse (Eindhoven University
of Technology)
J. J. M. Knippenberg (Eindhoven
University of Technology)
Jian Xu (IMDEA Materials) Claudio
Lopes (IMDEA Materials Institute)
Carlos González (Polytechnic University of Madrid & IMDEA Materials Institute)
An in-plane mechanical characterization and fracture toughness
tests were carried out on triaxially braided composites at coupon level. In addition, the present damage mechanisms were
identified.
MON-3_VEN_3.06-12
THERMOPLASTIC COMPOSITES FORMING SIMULATION.
VISCOSITY AND THERMAL INFLUENCE ON DRAPING.
Eduardo Guzman maldonado
(INSA de Lyon)
Hu Xiong (INSA de Lyon)
Hamila Nahiene (INSA de Lyon)
Philippe Boisse (INSA de Lyon)
The simulation of thermoplastic
prepreg forming is achieved by
alternate thermal and mechanical
analyses. The thermal properties
are obtained from a mesoscopic
analysis and a homogenization
procedure.
The present study develops an integrated extended finite element
method (XFEM) and cohesive
element (CE) method for 3Dl delamination migration in multi-directional composite laminates,
and validates the results with
experiment performed on a double-cantilever beam (DCB) with
multi-directional lay-up.
MON-3_BUD_3.04-11
MODELING FATIGUE-DRIVEN DELAMINATION USING A
THICK LEVEL SET INTERFACE
MODEL
Mohammad Latifi (Delft University of Technology)
Frans Van der Meer (Delft University of Technology)
Bert Sluys (Delft University of
Technology)
In this paper a combination of the
thick level set method and interface elements is used to develop
a new discontinuous method for
modeling fatigue driven delamination in composite.
MON-3_BUD_3.04-12
NEW TEST SET-UP FOR MEASURING RATE-DEPENDENT
MODE-I DELAMINATION
PROPERTIES OF UNIDIRECTIONAL AND WOVEN COMPOSITES
Siebe Spronk (Ghent University)
Joris Degrieck (Ghent University)
Francisco A. Gilabert (Ghent University)
F. Allayes (Ghent University)
Wim Van Paepegem (Ghent University)
A new experimental setup is designed to investigate the mode-I
delamination of specimens after
an impact load. Specimens are
tracked during a test using a contactless optical method. Finite element analysis is used to extract
the fracture toughness.
Stockholm (STO)
Biarritz (BIA)
Rhodes (RHO)
Bruges (BRU)
MON-3_STO_3.21-07
INVESTIGATION INTO THE
VARIABILITY OF CARBON FIBER NON-CRIMP FABRICS
AND ITS INFLUENCE ON THE
RTM-PROCESS
MON-3_BIA_3.11-10
HIGH TEMPERATURE STATIC
AND LOW VELOCITY IMPACT
BEHAVIOURS OF THERMOPLASTIC COMPOSITES BASED
ON PEN AND WOVEN FABRICS
MON-3_BRU_2.02-10
IMPROVED ELECTRICAL,
MECHANICAL AND EMI
SHIELDING PROPERTIES OF
PANI-VGCF-DBSA/DVB HYBRID
NANOCOMPOSITE
Andreas Nonn (BMW Group)
Christian Koch (BMW Group)
Thomas Maurer (BMW Group)
Simon Bickerton (University of
Auckland)
Christoph Greb (RWTH Aachen
Univeristy)
Thomas Gries (RWTH Aachen
University)
Luigi Sorrentino (National Research Council of Italy)
Vipin Kumar (University of Tokyo)
Tomohiro Yokozeki (University
of Tokyo) Teruya Goto (Yamagata
University) Tatsuhiro Takahashi
(Yamagata University) Sanjay R.
Dhakate (Physics & Engineering
of Carbon, CSIR-National Physical
Laboratory, New Delhi)
Bhanu Pratap Singh (Physics &
Engineering of Carbon, CSIR-National Physical Laboratory, New
Delhi)
Unidirectional carbon fiber NCF
single ply and stack properties
are characterized non-destructively. The experimental results
allow direct correlation of measured textile variability to flow
front progression in 2D RTM short
shot parts.
MON-3_STO_3.21-08
MODEL REDUCTION METHOD
APPLIED TO 3D SIMULATION
OF HONEYCOMB SANDWICHES WITH PARAMETRIZED
GRADIENT OF PROPERTIES IN
THE CORE
Brice Bognet (Ecole Centrale de
Nantes)
Francisco Chinesta (Ecole Centrale Nantes)
Patrick De Luca (ESI Group)
We demonstrate in this paper
how to solve a 3D elasticity problem defined on a honeycomb
sandwich geometry, using the
Proper Generalized Decomposition (PGD). Moreover two additional parameter are integrated in
the simulation, making it 5D.
MON-3_STO_3.21-09
PROCESS-PARAMETER DEPENDENT SPRING-IN AND WARPAGE OF LOCALLY REINFORCED
UD-TAPE LAMINATES AND
V-SHAPED PROFILES
Benjamin Hangs (Fraunhofer ICT)
Tobias Link (Fraunhofer ICT)
Frank Henning (Fraunhofer ICT)
This study deals with thin-walled,
locally reinforced laminates and
V-shaped profiles made from
thermoplastic UD tape. Process
parameters are varied on three
levels for both coupon types to investigate the influence on resulting shape deformations.
Coffee Break
Thermoplastic composites based
on PEN and four different woven
fabrics (carbon, aramid, Vectran
and basalt) were tested up to
100 °C by means of static flexural
tests, low velocity impacts and
dynamic mechanical scans (up
to 220 °C).
A Polyaniline (PANI) based electrically conductive thermosetting hybrid nano-composite has
been prepared by incorporating
high apparent-density type vapor
grown carbon fibers (VGCF-H) as
additional conductive filler.
MON-3_BIA_3.11-11
HIGH VELOCITY IMPACTS OF
COMPOSITE FRAGMENTS
Alberto Mata (Universidad Carlos
III de Madrid)
Jesus Pernas-Sanchez (Universidad Carlos III de Madrid)
Jose Alfonso Artero-Guerrero (Universidad Carlos III de
Madrid)
D. Varas (Universidad Carlos III
de Madrid)
Jorge López-Puente (Universidad
Carlos III de Madrid)
This work studies the behaviour
of composite fragments when
impacting against a rigid from
both experimental and numerical
approaches. The numerical methodology proposed predicts faithfully the physics of the impact
phenomenon.
MON-3_BIA_3.11-12
HIGH-FIDELITY PROGRESSIVE
FAILURE ANALYSES OF COMPOSITE LAMINATES UNDER
IMPACT LOADING
Zhoucheng Su (Institue of High
Performance Computing)
Dinh-Chi Pham (Department of
Engineering Mechanics, Institute
of High Performance Computing,
A*STAR) Sridhar Narayanaswamy
(Department of Engineering Mechanics, Institute of High Performance Computing, A*STAR)
This paper presents an effective
approach for high-fidelity progressive failure analyses of composite plates under impact loading. The dynamic response and
damage patterns predicted agree
well with those obtained from experiments in the literature.
MON-3_BRU_2.02-11
INVESTIGATION OF THE THERMAL CONDUCTIVITY OF HEXAGONAL BORON NITRIDE-EPOXY COMPOSITES
Björn Riecken (Hamburg University of Technology)
Bodo Fiedler (Technische Universität Hamburg-Harburg)
Presentations of the Sponsoring and Exhibiting Companies
The present study investigates
the influence of different dispersion techniques and attributed
effetcs on the filler material on
thermal conductivity of hexagonal boron nitride epoxy micro
composites.
MON-3_BRU_2.02-12
MECHANICAL BEHAVIOR OF
AMORPHOUS PEEK IN THE
RUBBERY STATE
Lilian Martineau (Université de
Toulouse)
France Chabert (University of
Toulouse)
Gerard Bernhart (Université de
Toulouse)
Toufik Djilali (NIMITECH Innovation)
The mechanical behavior of amorphous poly(etheretherketone)
(PEEK) was investigated just
above the glass-transition temperature (Tg).
Brighton (BRI)
MON-3_BRI_2.07-10
ON THE MULTI-FUNCTIONAL BEHAVIOR OF GRAPHENE
BASED NANO-REINFORCED
POLYMERS
Stavros Tsantzalis (University
of Patras)
Christina Kostagiannakopoulou
(University of Patras)
George Sotiriadis (University
of Patras)
Vassilis Kostopoulos (University
of Patras)
The objective of present work is
to investigate the influence of
Graphene Nano-Platelets on the
multi-functionality of nano-reinforced epoxy polymers. Thermal
conductivity measurements, thermo-mechanical and mechanical
tests were performed.
MON-3_BRI_2.07-11
STRENGTHENING MECHANISM
OF GRAPHENE/METAL NANOLAYERED COMPOSITES
Zhenyu Yang (Beihang University) Dandan Wang (Beihang
University)
Jian Sun (Beihang University)
Zixing Lu (Institute of Soild Mechanics, Beihang University)
MD simulation was employed
to investigate the deformation
mechanisms of graphene/metal
nanowires with layered structures. The strengthening mechanisms of nanolayered composites
nanowires are revealed as dislocations blocked by graphene
layers.
MON-3_BRI_2.07-12
IMPACT PROPERTIES OF
GRAPHENE MODIFIED POLYMERS AND COMPRESSION
AFTER IMPACT (CAI) PROPERTIES OF GRAPHENE MODIFIED CFRPS
Christina Kostagiannakopoulou
(University of Patras)
Stavros Tsantzalis (University of
Patras) George Sotiriadis (University of Patras)
Vassilis Kostopoulos (University
of Patras)
Present study investigates the
influence of GNPs on the impact
behavior of nano-reinforced
polymers and CFRP laminates.
Charpy tests reveal that the introduction of GNPs into the polymer
improved 50% the impact resistance of the reference material.
Naples (NAP)
MON-3_NAP_2.06-10
FLEXIBLE THERMOELECTRICAL MODULES BASED ON BITE NANOCOMPOSITES
Giovanni Piero Pepe (Università
di Napoli Federico II)
Immacolata Pedaci (STMIcroelectronics)
Valeria Casuscelli (STMicroelectronics)
Angela Cimmino (STMicroelectronics)
Giuseppe Travaglini (STMicroelectronics)
Maria Carmen Giordano (STMicroelectronics)
Gianfranco Carotenuto (Institute
for Polymers, Composites and
Biomaterials - National Research
Council)
MON-3_NAP_2.06-11
REINFORCEMENT OF COMPOSITE MATERIALS USING ARCHITURED CARBON NANOTUBES
– CARBON FIBERS
Fabrice Laurent (Université de
Haute Alsace)
Hanae Oulanti (Université de
haute Alsace)
Thang Lehuu (Université de haute
Alsace)
Gildas L‘Hostis (LPMT)
Basma Hasiaoui (Université de
haute Alsace) Bernard Durand
(LPMT)
London (LON)
MON-3_LON_5.06-02
AUTOMATED TAPE LAYING
(ATL) PROCESS SIMULATION
THROUGH 3D THERMO-MECHANICAL MODEL
Yann Duplessis Kergomard (ESI
Group)
Britto Satheesh (Montanuniversitaet Leoben)
L. Dufort (ESI Group)
Ralf Schledjewski (Montanuniversitaet Leoben)
The paper focuses on the ATP
process simulation in the frame
of the STELLAR project, and especially on the laser simulation to
assess the heating flux boundary
conditions, chaining with an explicit 3D thermo-mechanical simulation of the ATP process.
MON-3_LON_5.06-03
AUTOMATIC LAMINATION AND
IN-SITU CONSOLIDATION:
CONTROLLING THE PROCESS.
Isabel Martín (FIDAMC)
Antonio Fernández-López (Universidad Politécnica de Madrid)
A. Güemes (Universidad Politécnica de Madrid)
Fernando Rodríguez (FIDAMC)
The application of deconvolution
and optimization methods to the
exothermal peaks of crystallization over PEEK and CF/PEEK.
We present carbon nanotube
(CNT) growth, using an oxyacetylene flame method, on carbon
fibers, a method developed in the
laboratory. The goal of this work
is the “scaling-up” of the process
in order to bring new properties
to the composite materials.
MON-3_NAP_2.06-12
IMPROVING DELAMINATION
STRENGTH THROUGH CNTS
REINFORCEMENT: NUMERICAL
SIMULATION
Yassine El Assami (IFSTTAR)
Monssef Drissi-Habti (IFSTTAR)
V. Raman (Institut de Recherche
Technologique (IRT) Jules VERNE)
A. Pisupati (Institut de Recherche
Technologique (IRT) Jules VERNE)
The mechanical properties deduced from this multiscale approach will allow determining the
properties of a new bonding layer
that would be considered in macroscopic models.
Bordeaux (BOR)
Stuttgart (STG)
Augsburg (AUG)
Ingolstadt (ING)
MON-3_BOR_5.02-02
HIGH-RATE, SPRING-IN COMPENSATED, NET-SHAPE MANUFACTURING OF RTM MADE
COMPOSITE FRAMES WITHIN
THE EU PROJECT MAAXIMUS
MON-3_STG_5.09-09
EXPERIMENTAL INVESTIGATION OF INTER-LAYER THERMAL CONTACT RESISTANCE
AND ITS RELEVANCE FOR
CONSOLIDATION OF THERMOPLASTIC COMPOSITES
MON-3_AUG_4.04-02
FAILURE OF CARBON FIBER
COMPOSITES WITH THERMOSET AND THERMOPLASTIC
MATRIX INVESTIGATED BY
IN-SITU MONITORING USING
COMPUTED TOMOGRAPHY
AND ACOUSTIC EMISSION
MON-3_ING_6.01-07
MODELLING THE SHAPE MEMORY CAPABILITY OF A HYBRID
INTERLEAVED COMPOSITE
MON-3_ATH_1.01-10
INTEGRATED HELICOPTER
SIDE SHELLS IN INFUSION
TECHNOLOGY
Frank Weiland (Airbus Helicopters)
Uwe Beier (Airbus Helicopters)
Sinan Kalafat (University of
Augsburg)
Markus Sause (University of
Augsburg)
Bohao Zhang (Imperial College
London)
Paul Robinson (Imperial College
London)
Alexander Bismarck (University
of Vienna)
Henry Maples (University of
Vienna)
The investigated cases for thermoset and thermoplast based
composites show fundamentally
different behaviour of crack propagation. The CT images in combination with the acoustic emission
provide an insight to the nature of
both failure behaviours.
This paper investigates finite
element modelling of the shape
memory capability of a polystyrene-interleaved composite.
Such modelling could be useful
in the design of deployable structures made of this shape memory
composite.
MON-3_AUG_4.04-03
DETERMINATION OF ENVIRONMENTAL DEGRADATION
OF MATRIX AND FIBRE MATERIALS WITH A NOVEL, STATISTICALLY RELIABLE MICRO-ROBOTIC APPROACH
MON-3_ING_6.01-08
SPRING ELEMENTS FOR REWOD ENERGY HARVESTERS:
PRINTING EMULSION TEMPLATES TO MANUFACTURE
MACROPOROUS POLYMERS
Erik Kappel (German Aerospace
Center)
Björn Reinhard (German Aerospace Center)
Tim Roser (Airbus Helicopters)
The paper reports simulation-based prediction of process-induced distortions and the
corresponding compensation of
an RTM injection tool.
Philipp Maximilian Schäfer (Technical University of Munich / Institute for Carbon Composites)
Silke Kreuzhage (Technical University of Munich)
Swen Zaremba (Technical University of Munich / Institute for Carbon Composites) Klaus Drechsler
(Technical University of Munich
/ Institute for Carbon Composites)
Thermal processes are decisive
for the efficient manufacturing of
thermoplastic tapes. We developed a method for determining
the inter-layer thermal contact
resistance of consolidated and
unconsolidated tapes and investigated CFRP PA-6 tapes.
MON-3_BOR_5.02-03
INFLUENCE OF THE FIBRE
VOLUME FRACTION PARAMETER ON THE PREDICTIONS
OF THE CURE-INDUCED DEFORMATIONS IN THERMOSET
COMPOSITE PARTS
Antoine Parmentier (Cenaero)
Benoit Wucher (Cenaero)
David Dumas (Cenaero)
The present study focuses on
quantifying the influence of the fibre volume fraction parameter on
the prediction of the cure-induced
deformations in order to evaluate
the level of refinement to introduce in the numerical model.
MON-3_STG_5.09-10
EFFECTS OF DIFFERENTLY IMPREGNATED CARBON FIBER
REINFORCED TAPES WITH
POLYAMIDE 6 ON FURTHER
PROCESSING
Veronika Radlmaier (Technical
University of Munich / Institute
for Carbon Composites)
H. Baumann (Technical University of Munich / Institute for Carbon Composites) Patrik-Vincent
Brudzinski (SGL Technologies)
Andreas Erber (SGL Technologies)
Hannes Koerber (Technical University of Munich / Institute for
Carbon Composites)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
This study aims to investigate
if partially impregnated tapes
can be completely impregnated
throughout a typical production
process for thermoplastic composite components.
MON-3_LON_5.06-04
CHALLENGES FOR THERMOPLAST-AUTOMATED FIBER
PLACEMENT (TP-AFP) WITH
IN SITU CONSOLIDATION ON
3D PARTS
MON-3_BOR_5.02-04
MODELLING THERMAL DEFORMATIONS IN CURVED
COMPOSITE LAMINATES USING STANDARD SHELL FINITE
ELEMENTS
MON-3_STG_5.09-11
EVALUATION OF THE IMPREGNATION CHARACTERISTICS OF
CARBON FIBER-REINFORCED
COMPOSITES USING POLYPROPYLENE GEL-FILM.
Andreas Kollmannsberger (Technical University of Munich)
Elisabeth Ladstätter (Technical
University of Munich / Institute
for Carbon Composites)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
Enrique Graciani (Universidad
de Sevilla)
Antonio Bláquez (University of
Seville)
Jesús Justo Estebaranz (Universidad de Sevilla)
Federico París (Universidad de
Sevilla)
Soo Jin Ham (Chonbuk National
University)
Seung A Song (Chonbuk National
University)
Seong Su Kim (Chonbuk National
University)
Based on an optimized 2D steadystate process this paper focuses
on describing the differences for
3D lay-up on v-shaped tools with
a rounded corner. Test specimens
with different leg angles are manufactured and tested according to
ASTM 6415.
A new modelling procedure
for predicting the spring-in of
L-shaped composite samples
using standard shell FE models
(with suitably modified in-plane
coefficients of thermal expansion)
is presented and successfully
compared with solid FE models.
Coffee Break
In this study, we fabricated
CFRPP by using a high speed resin transfer molding (RTM) with PP
gel-film whose flow direction is
through-thickness for the preform
to solve the low impregnating
property of the CFRPP.
Essi Sarlin (Tampere Univeristy of
Technology)
Mathias von Essen (Tampere Univeristy of Technology)
Sarianna Palola (Tampere Univeristy of Technology)
Mari Lingren (Tampere Univeristy
of Technology)
Pasi Kallio (Tampere Univeristy of
Technology)
Jyrki Vuorinen (Tampere Univeristy of Technology)
The environmental degradation
of typical composite matrix and
reinforcement materials is studied with a new micro-robotic approach and the results are
compared against the results obtained by a traditional fibre tensile method.
Angelika Menner (University of
Vienna)
Qixiang Jiang (University of Vienna)
Alexander Bismarck (University
of Vienna)
Athens (ATH)
An innovative manufacturing routine for CFRP shell structures has
been developed and demonstrated. It combines a VAP-infusion
with a joining technology based
on the interdiffusion of thermoplastic films with epoxies for cost
and weight efficiency.
MON-3_ATH_1.01-11
APPLICATION POTENTIAL
OF BASALT FIBERS IN AERONAUTICS
Assessment of basalt fibers regarding their properties and
available scatter. Use of the fiber
diameter as an evaluation criterion for the spinning process control. Correlation of the diameter
and its scatter with the mechanical fiber properties.
MON-3_ING_6.01-09
THERMAL ACTIVATED COMPOSITE STRUCTURE WITH
SHAPE MEMORY EFFECT
MON-3_ATH_1.01-12
MANUFACTURING SIMULATION ENABLING COMPLEX
COMPOSITE SINE WAVE
SPARS
In this paper, after a definition of
one way or two way shape memory effect and the notions of dual,
triple or multi shape, properties
which characterized the nature
of the SMP, we present a high rigidity shape memory composite
material.
15:40
Felix Bauer (University of Stuttgart)
Manuel Kempf (Airbus Helicopters)
Christian Wellhausen (Airbus Helicopters)
Peter Middendorf (University of
Stuttgart)
We report on the preparation and
characterisation of emulsion templated, highly flexible and interconnected macroporous polymer
springs which are a vital part of
a novel REWOD energy harvesting device.
Abdul Basit (NTU)
Gildas L‘Hostis (LPMT)
Bernard Durand (LPMT)
15:20
16:00
Sebastian Weidinger (Premium
Aerotec GmbH)
Daniel Hartung (Premium Aerotec GmbH)
Tobias Weber (Premium Aerotec GmbH)
This paper shows the simulation
of key manufacturing steps like
draping and curing for a sine
wave spar example, using ABAQUS in combination with user
defined material models.
16:20
37
Munich (MUC)
16:50
16:50
3.06 Textile Composites (4/6)
3.04 Delamination (4/4)
MON-4_MUC_3.01-13
IN SITU FIBRE FAILURE MAPPING ON CFRP BY ULTRAFAST
X-RAY COMPUTED TOMOGRAPHY
MON-4_SEV_3.03-01
AICC – AUTOMATIC INSPECTION OF CUT CARBON
MON-4_VEN_3.06-13
FINITE ELEMENT ANALYSIS
OF 3D WOVEN COMPOSITE
T-JOINTS UNDER TENSILE
LOADING
MON-4_BUD_3.04-13
NOVEL STITCHING YARN FOR
IMPROVED DELAMINATION
PERFORMANCE OF CARBON
FIBRE COMPOSITES
Shibo Yan (Univerisity of Nottingham)
Andrew Long (University of Nottingham)
Xuesen Zeng (University of Nottingham)
Thomas Dooher (Ulster University-School of Engineering)
Cormac McGarrigle (Ulster University-School of Engineering)
Dorian Dixon (Ulster University-School of Engineering)
Alistair McIlhagger (Ulster University-School of Engineering)
Eileen Harkin-Jones (Ulster University-School of Engineering)
Edward Archer (Ulster University-School of Engineering)
MON-3
MONDAY
Markus Soutschek (Fraunhofer IPA)
In this article, measurement
methods and an optical test device for determining the quality
of machined components (drill
holes and edges) off CFRP are introduced. The measuring method
was implemented in terms of a
handset with the name AICC.
MON-4_MUC_3.01-14
INTRALAMINAR FRACTURE
TOUGHNESS CHARACTERIZATION: A COMPUTATIONAL MICROMECHANICS PERSPECTIVE
MON-4_SEV_3.03-02
AN ANISOTROPIC DAMAGE
MODEL FOR CMCS UNDER
NON-PROPORTIONAL LOADING CONDITIONS
Miguel Herraez (IMDEA Materials)
Carlos González (Polytechnic University of Madrid & IMDEA Materials Institute)
Claudio Lopes (IMDEA Materials
Institute)
Emmanuel Baranger (Université
Paris-Saclay)
A computational micromechanics model to capture the R-curve
corresponding to the intralaminar
cracking process through a fibre
reinforced polymer has been developed. The model combines an
embedded cell approach with the
LEFM displacement field.
MON-4_MUC_3.01-15
INFLUENCE OF GRAPHENE
NANOPARTICLES ON THE SIZE
EFFECT OF EPOXY MATRIX
Christian Leopold (Technische
Universität Hamburg-Harburg)
Wilfried Liebig (Technische Universität Hamburg-Harburg)
Hans Wittich (Technische Universität Hamburg-Harburg)
Bodo Fiedler (Technische Universität Hamburg-Harburg)
The size effect of neat and
graphene nanoparticle modified
epoxy matrix is investigated. A
significant size effect is identified
for the neat matrix. For graphene
modified matrix, failure initiates
at the nanoparticles, counteracting any size effect.
38
Budapest (BUD)
3.03 Fracture and Damage - Laminate Level (1/5)
Ultrafast in situ synchrotron X-ray
computed tomography is used
in this work to monitor real time
(4D) accumulation of fibre breaks
under quasi-static load till one
second before the final failure of
the coupon.
17:30
Venice (VEN)
3.01 Fracture and Damage - Micromechanics (4/8)
Serafina Consuelo Garcea (University of Manchester)
Philip J. Withers (University of
Manchester)
17:10
Seville (SEV)
This paper presents a damage
model describing the mechanical
behavior of SiC/SiC composites
under multi-axial non-proportional loadings. Fourth order damage
variables are used associated to
an anisotropic evolution law.
This paper presents a voxel-based
method to predict the non-linear
response and damage initiation
for 3D woven composite T-joints,
by incorporating realistic fibre geometry and cohesive zone model
for meso-scale analysis.
Aurore Girardot (CEA)
Noël Lahellec (LMA-CNRS)
Christian Hochard (LMA-CNRS)
Sandrine Leroch (CEA)
The objective of this work is to
study,under high loads and long
periods,the propagation of transverse cracks. Experimental results
are presented and it is observed
an evolution of the matrix damage which is compared to the evolution for cyclic loads.
Bruges (BRU)
ESCM Council Meeting 1
2.02 Polymer Matrix Materials (4/4)
MON-4_STO_3.15-01
ANALYSIS OF OMEGA STIFFENER UNDER BENDING AFTER
IMPACT TESTS
MON-4_BIA_3.11-13
IMPACT DAMAGE IN WOVEN
CARBON FIBRE/EPOXY LAMINATES: EFFECT OF STEEL AND
ICE PROJECTILES
ESCM Council Meeting 1
MON-4_BRU_2.02-13
MECHANICAL BEHAVIOUR OF
EPOXY NETWORKS IN DEPENDENCE ON TIME, CURE AND
TEMPERATURE
Muhammad Ridha (National University of Singapore)
Tong-Earn Tay (National University of Singapore)
Sven Werner (Airbus Operations)
Paul Joern (Airbus Operations)
Vincent B.C. Tan (National University of Singapore)
The combined experimental and
simulation studies shows that a
proper progressive damage tools
can give a better understanding
of the failure mechanisms during
impact and subsequent bending
test. This can then be used to find
better design solutions.
MON-4_STO_3.15-02
FATIGUE LIFE OF POSTBUCKLED STRUCTURES WITH INDENTATION DAMAGE
Ricardo Sa (University of Minho)
Ricardo Ferreira (PIEP - Innovation in Polymer Engineering)
Nuno Goncalves (PIEP - Innovation in Polymer Engineering)
Nuno Vieira (PIEP - Innovation in
Polymer Engineering)
João P. Nunes (University of
Minho)
F. W. J. van Hattum (Saxion University of Applied Sciences)
Xiaodong Xu (University of
Bristol)
Michael Wisnom (University of
Bristol)
Stephen Hallett (University of
Bristol)
Gary Holden (BAE Systems)
Barbara Gordon (BAE Systems)
Carlos Davila (NASA)
Chiara Bisagni (Delft University of
Technology)
MON-4_VEN_3.06-15
FROM A MICRO-CT IMAGE TO
MODELS OF THE INTERNAL
GEOMETRY, DEFECTS, MICROMECHANICS AND PERMEABILITY OF TEXTILE COMPOSITES
– VOXTEX SOFTWARE
Rhodes (RHO)
3.11 Dynamic Loading - Impact,
Crash, Blast (4/6)
MON-4_BUD_3.04-14
PREDICTING DEBONDING AND
DELAMINATION IN ADHESIVELY BONDED T-JOINTS
Different levels of FE modelling
were conducted, in order to predict debonding and delamination
in an adhesively bonded T-joint
pull-off (T-pull) test.
Biarritz (BIA)
3.15 Analysis and Design of Damage Tolerant Composite Structures (1/2)
MON-4_VEN_3.06-14
FINITE ELEMENTS ANALYSIS
VERSUS EXPERIMENTAL TESTING FOR A CFRP STRUCTURE
To validate the finite elements
model at the basis of the optimization process a scale model prototype of the composite structure
was built and tested. The experimental results were then compared with those obtained from
numerical simulations
MON-4_SEV_3.03-03
DAMAGE EVOLUTION UNDER
LONG-TERM, HIGH AND CONSTANT LOADING OF A CARBON/EPOXY LAMINATE
Comparison between a commercial sewing yarn and those made
with high temperature thermoplastics for improving the through
thickness properties of fibre reinforced polymer composites.
Stockholm (STO)
The fatigue life of composite
stiffened panels with indentation
damage was investigated experimentally using single stringer
compression specimens.
Laurence Coles (Loughborough
University) Anish Roy (Loughborough University) Leonid Voronov
(Perm National Research Polytechnic University)
Boris Bolotov (Perm National Research Polytechnic University)
Mikhail Nikhamkin (Perm National Research Polytechnic University) Vadim Silberschmidt (Loughborough University)
Michael Müller (Technical University of Dresden)
Hubert Jäger (Technical University
of Dresden)
Maik Gude (Technical University
of Dresden)
René Füßel (Technical University
of Dresden)
Eike Dohmen (Technical University of Dresden)
The deformation potential of an
epoxy systems can be significantly extended if appropriate testing
temperature and degree of cure
are adhered. This will allow the
application of secondary forming
operations for thermoset based
composites.
Study of the dynamic ballistic
response and resulting damage
of carbon fibre/epoxy composite specimens subjected to solid (steel) and fragmenting (ice)
projectile impacts, using digital
image correlation and 3D X-ray
computer tomography.
MON-4_BIA_3.11-14
IMPROVEMENT OF THE INPLANE CRUSHING RESPONSE
OF CFRP SANDWICH PANELS
BY THROUGH-THICKNESS REINFORCEMENTS
ESCM Council Meeting 1
MON-4_BRU_2.02-14
REACTIVITY OF EPOXY RESINS
AT THE NANOSCALE
David Seveno (KU Leuven)
P. Bolhuis (University of Amsterdam)
Lourens Blok (University of
Bristol)
James Kratz (University of Bristol)
Dirk Lukaszewicz (BMW Group)
Simon Hesse (BMW Group)
Christos Kassapoglou (Delft University of Technology)
Carwyn Ward (University of
Bristol)
Combining reactive molecular dynamics and transition path sampling, the curing process of epoxy
resins was investigated at the
nanoscale. This novel modelling
methodology permits to predict
potential energy surfaces and optimum activation energies.
The in-plane crushing response
of tufted and non-tufted sandwich structures was recorded
using a drop-tower test rig, and
high-speed camera footage was
used to analyse the crushing morphology.
MON-4_BUD_3.04-15
PREDICTING LOW VELOCITY IMPACT DAMAGES IN
STITCHED COMPOSITE LAMINATE
MON-4_STO_3.15-03
DESIGN PARAMETER STUDY
OF A CFRP T-JOINT UNDER
OVERPRESSURE CONDITIONS
DUE TO BALLISTIC IMPACT
Ilya Straumit (KU Leuven)
Stepan Lomov (KU Leuven)
Nghi Nguyen (KU Leuven)
Martine Wevers (KU Leuven)
Jonny Herwan (Aerospace Engineering Dept. Tokyo Metropolitan
University)
Atsushi Kondo (MSC. Software)
Naoyuki Watanabe (Tokyo Metropolitan University)
Software VoxTex analyses a micro-CT image of a textile composite and transforms the image
into a voxel model in which the
fibrous structure of the reinforcement (fibre volume fraction and
fibre direction) is identified for
each voxel.
Quasi static indentation simulation has been developed employing cohesive contact surface and
spring connector element as the
main techniques. The predicted
load displacement curves and delamination areas are closed to the
experimental one.
José Luis Sandoval Murillo (Fraunhofer EMI)
Georg Ganzenmüller (Fraunhofer EMI)
Sebastian Heimbs (Airbus Group
Innovations)
Michael May (Fraunhofer EMI)
In this article a numerical parameter study on the mechanical
response of composite T-joints is
performed. The influence of different design parameters on the
strength of the joint is quantified.
Optimal values for these parameters are suggested.
MON-4_BIA_3.11-15
INFLUENCE OF LOAD APPLICATION AND FIXTURE ON
CHARACTERISTIC VALUES AT
SHORT-TIME-DYNAMIC COMPRESSION TESTING OF CARBON/EPOXY COMPOSITES
Tobias Schmack (Audi AG)
Daniel Huelsbusch (Technical University of Dortmund)
Riccardo Righi (Audi AG)
Julius Rausch (Audi AG) David
Roquette (Audi AG)
Günter Deinzer (Audi AG)
Frank Walther (Technical University of Dortmund)
This study deals with the comparison of two fixtures to obtain
strain rate-dependent properties
of carbon fiber-reinforced plastics
(CFRP) under axial compression.
ESCM Council Meeting 1
MON-4_BRU_2.02-15
THERMOPLASTIC-BASED
COMPOSITES AS PROCESSED
BY RTM
Jean-Charles Fontanier (INSA
de Lyon)
Frédéric Lortie (Ingénierie des
Matériaux Polymères Lyon)
Jean-François Gérard (INSA de
Lyon)
Pierre Gérard (ARKEMA, Groupement de Recherche de Lacq)
Resin transfer molding (RTM) is
commonly used to produce high
performance thermoset-based
composites. In order, to extend its
development to sustainable solutions, new RTM-compatible reactive thermoplastic systems have
to be developed.
Brighton (BRI)
Naples (NAP)
London (LON)
Bordeaux (BOR)
Stuttgart (STG)
Augsburg (AUG)
Ingolstadt (ING)
Athens (ATH)
2.07 Graphene, Graphene-Based
Composites (4/4)
2.06 Nano Composites (4/7)
5.06 Automated Placement Technologies (2/5)
5.02 Process Simulation II - Curing & PID (2/2)
5.09 Manufacturing Processes for
Thermoplastic Composites (4/7)
4.01 Full-Field Methods (1/3)
6.03 Structural Power Composites (1/1)
1.01 Aerospace (4/6)
MON-4_BRI_2.07-13
ADDITIVE EFFECTS IN HYBRID MULTIFUNCTIONAL GRAPHENE-GLASS
FIBRE-POLYPROPYLENE COMPOSITES
MON-4_NAP_2.06-13
MICROSTRUCTURE AND MECHANICAL PROPERTIES OF
NANOCOMPOSITES COMPOUNDED WITH POLYOLEFIN AND HYDROPHOBIZING
AGENT-TREATED CELLULOSE
NANO FIBERS
MON-4_LON_5.06-05
CHARACTERISTICS AND PROCESSABILITY OF BINDERED
DRY FIBRE MATERIAL FOR AUTOMATED FIBRE PLACEMENT
MON-4_BOR_5.02-05
NUMERICAL OPTIMIZATION
AND SENSITIVITY ANALYSIS
OF PULTRUSION PROCESS PARAMETERS
MON-4_STG_5.09-12
EXPERIMENTAL INVESTIGATION OF THE RADIUS FORMING BEHAVIOR OF FIBER REINFORCED THERMOPLASTICS
MON-4_AUG_4.01-01
A COMPOSITE ANISOGRID
PANEL WITH SKIN: MECHANICAL TESTING AND DIC
Laura Veldenz (National Composites Centre) Mattia Di Francesco
(National Composites Centre)
Simon Astwood (National Composites Centre) Giuseppe Dell‘Anno (National Composites Centre)
Byung Chul Kim (University of
Bristol)
Kevin Potter (University of
Bristol)
Alexander Safonov (Skolkovo Institute of Science and Technology
(Skoltech))
Anton Saratov (Datacvance) Andrey Ushakov (Skolkovo Institute of Science and Technology
(Skoltech))
Alexander Schug (Fraunhofer ICT)
Roland Hinterhölzl (Technical
University of Munich / Institute
for Carbon Composites)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
MON-4_ING_6.03-01
INITIAL STUDY OF THE MICROSTRUCTURE OF CARBON
FIBRES ACTING AS NEGATIVE
ELECTRODES IN STRUCTURAL
BATTERY COMPOSITES
MON-4_ATH_1.01-13
NUMERICAL INVESTIGATION
AND IMPROVEMENT OF THE
CRASH BEHAVIOUR OF A
SMALL AIRCRAFT COMPOSITE
STRUCTURE
Fang Liu (Chalmers University of
Technology)
Masoud Rashidi (Chalmers University of Technology)
Leif Asp (Chalmers University of
Technology)
The mathematical model of material behavior during pultrusion
is implemented within ABAQUS
environment. For numerical optimization and sensitivity analysis
of process parameters, the simulation scheme was developed in
pSeven software suite.
The following work focuses on the
experimental analysis of the forming behavior of fiber reinforced
thermoplastic layups with a special focus on the radii. Possible
factors influencing the result and
quality of the forming shall be investigated.
Jan Kremberg (Universität Bremen) Christian Brauner (Faserinstitut Bremen) Mohamed Adli
Dimassi (Faserinstitut Bremen)
Axel S. Herrmann (Faserinstitut
Bremen) Oliver Reinhardt (Flight
Design GmbH) Harald Bachem
(Ostfalia Hochschule für angewandte Wissenschaften)
MON-4_BOR_5.02-06
PRE-ASSESSMENT TOOL FOR
DISTORTION IN FRAME-LIKE
COMPOSITE STRUCTURES: INDUSTRIAL APPLICATION
MON-4_STG_5.09-13
FLOW BEHAVIOR OF COMPLEX SHAPED HYBRID CFRTP
DURING COMPRESSION
MOLDING
Maximilian Lipcan (Airbus Helicopters)
Johannes Mattheus Balvers (Airbus Helicopters)
Daiki Kobayashi (University of Tokyo) Yi Wan (University of Tokyo)
Hanchul Lee (University of Tokyo)
Taro Nakamura (University of Tokyo) Haowen Wei (University of
Tokyo) Jun Takahashi (University
of Tokyo) Isamu Ohsawa (University of Tokyo)
Dimitrios Papageorgiou (University of Manchester)
Robert Young (University of Manchester)
Ian Kinloch (University of Manchester)
The effect of the presence of
graphite nanoplatelets (GNP) and
glass fibres (GF) both individually and simultaneously in an isotactic polypropylene matrix was
evaluated.
MON-4_BRI_2.07-14
THE EFFECT OF GRAPHITE NANOPLATELETS (GNP)
ASPECT RATIO AND HEAT
TREATMENT ON NYLON 6/GNP
NANOCOMPOSITES
Muhammad Khairulanwar Mohd
Halit (University of Manchester)
Arthur Wilkinson (University of
Manchester)
The effect of GNP aspect ratio and
GNP heat treatment on PA6 matrix were studied. Nanocomposites were processed using melt
compounding method and characterised for thermal and mechanical properties. Results obtained
were compared to unfilled PA6.
MON-4_BRI_2.07-15
ELECTRICAL AND THERMAL
CONDUCTIVITY OF AEROGEL/
EPOXY COMPOSITES
Svenja Garlof (Technische Universität Hamburg-Harburg)
M. Mecklenburg (Technical University Hamburg)
R. Adelung (Kiel University)
D. Smazna (Kiel University)
Bodo Fiedler (Technische Universität Hamburg-Harburg)
K. Schulte (Technical University
Hamburg)
In this paper we present the production of two carbon aerogels,
Aerographite and a CNT foam,
their processing into an epoxy
composite and their electrical and
thermal properties.
Kanzuya Nagata (Toyama Prefectural University)
Shinichi Okuda (Toyama Prefectural University)
Kazuaki Sanada (Toyama Prefectural University)
The objective of this study is to
investigate surface modifications
occurring on cellulose nano fibers
(CNFs) and the mechanical properties of nanocomposites consisting of polyolefins and hydrophobizing agent-treated CNFs.
MON-4_NAP_2.06-14
MORPHOLOGY, MECHANICAL
PROPERTIES AND PROCESSABILITY OF POLYETHYLENE
TEREPHTHALATE MODIFIED
BY POLYHEDRAL OLIGOMERIC
SILSESQUIOXANES
Jacek Andrzejewski (Technical
University of Poznan) Marek
Szostak (Technical University
of Poznan) Michał Grzelak (GTX
Hanex Plastic) B. Dudziec (Adam
Mickiewicz University in Poznan)
The use of the POSS particles
as a modifier for poly(ethylene
terephthalate) was main subject
of this research. The results obtained from the measurement and
structural observations confirmed
the possible nucleation effect of
the used modifier.
MON-4_NAP_2.06-15
MULTI-SCALE REINFORCEMENT OF COMPOSITES USING COATED FABRICS; EPOXY
- CARBON NANOTUBE (CNT)
- CARBON FIBRE (CF) COMPOSITES WITH IMPROVED
INTER-LAMINAR FRACTURE
TOUGHNESS
Kinjalkumar Patel (University of
Manchester)
Arthur Wilkinson (University of
Manchester)
Prasad Potluri (University of Manchester)
A woven carbon fibre fabric reinforcement was treated with
MWCNT prior to moulding of composites by resin infusion to produce multi-scale composite with
improved mode I and mode II inter-laminar fracture toughness.
A wide variety of dry fibre materials is available, the five examined materials show different
behaviours in manufacturability.
The use of the analytical hierarchy process enables a structured
and purpose specific material
selection.
MON-4_LON_5.06-06
IDENTIFICATION OF DEFECT
IN THE AUTOMATED TAPE
PLACEMENT PROCESS USING FIBRE BRAGG GRATING
SENSORS
Ebrahim Oromiehie (UNSW Australia)
B.Gangadhara Prusty (UNSW
Australia)
Paul Compston (Australian National University)
Ginu Rajan (University of Wollongong)
In this paper, FBG sensors are
implemented to identify defects
during Automated Tape Placement lay-up process. Also, the
capability of FBG sensor towards
the measurement of acoustic
emissions in a composite laminates is demonstrated experimentally.
MON-4_LON_5.06-07
DEVELOPMENT OF THE DIRECT
ROVING PLACEMENT TECHNOLOGY (DRP)
Yannis Grohmann (German Aerospace Center)
Niels Stoffers (German Aerospace
Center)
Alexandra Kühn (German Aerospace Center)
Thorsten Mahrholz (German Aerospace Center)
Direct Roving Placement (DRP) is
an upcoming low cost alternative
to known Automated Fiber Placement (AFP) or Automated Tape
Laying (ATL) processes. The main
advantages of this technology
are low material costs and high
productivity.
It is strived for a pre-assessment
tool for the early design phase
that identifies earlier composite
frame-like structures prone to distortion, by coupling their geometrical description to the spring-in
equations of orthotropic strain
mismatch.
MON-4_BOR_5.02-07
PREDICTING WRINKLE FORMATION IN COMPONENTS
MANUFACTURED FROM
TOUGHENED UD PREPREG
Jonathan Belnoue (University
of Bristol)
James Kratz (University of Bristol)
Oliver Nixon-Pearson (University
of Bristol)
Tassos Mesogitis (University of
Bristol)
Dmitry Ivanov (University of
Bristol)
Stephen Hallett (University of
Bristol)
The paper proposes a new numerical framework for the prediction
of wrinkle formation in composite manufacturing. Two industry
relevant cases (i.e. a gaps and
overlaps specimen and a stepped
laminate) are analysed using this
new method.
The flowability of hybrid CFRTP
was investigated by using rib
formation mold. The fiber distribution of the plate part under
the charging port of ribs was relatively kept successfully and the
flexural rigidity was improved by
hybridization.
Giovanni Totaro (CIRA Italian
Aerospace Research Centre)
Claudio Ferrara (Sapienza University of Rome)
Felice De Nicola (CIRA Italian
Aerospace Research Centre)
The axial compression test on a
composite anisogrid panel with
skin is discussed in the paper. The
interpretation of the test results
is enhanced via digital image correlation based on a stereo-camera system.
MON-4_AUG_4.01-02
A NEW NDT METHOD FOR THE
STUDY OF COMPOSITE BONDED REPAIR
Matthias Barus (Université de
Toulouse) Hélène Welemane
(Université de Toulouse) Francis
Collombet (Institut Clément Ader)
Marie Laetitia Pastor (Université
de Toulouse) A. Cantarel (Institut
Clément Ader) Valérie Nassiet
(Université de Toulouse) Laurent
Crouzeix (Institut Clément Ader)
Yves-Henri Grunevald (Composites Expertises & Solutions)
Using SEM and TEM we characterise carbon fibre microstructures for two fibres with different
electrochemical performance. Differences in fibre microstructure
allows us to explain why one fibre
type works well whereas the other does not.
MON-4_ING_6.03-02
ELECTRICAL AND MECHANICAL PROPERTIES OF LiAlTi
(PO4)3 SOLID ELECTROLYTE-BASED MULTIFUNCTIONAL POWER COMPOSITES
Guangyue Liao (German Aerospace Center)
Sebastian Geier (German Aerospace Center)
Thorsten Mahrholz (German Aerospace Center)
Peter Wierach (German Aerospace Center)
Martin Wiedemann (German
Aerospace Center)
MON-4_ATH_1.01-14
NUMERICAL SIMULATION
AND EXPERIMENTAL TEST
CAMPAIGN OF COMPOSITE
BRAIDED FRAMES UNDER A
COMBINED COMPRESSION/
BENDING LOAD
This paper discusses manufacturing process, experimental
testing and numerical simulation
of braided Ω-frame segments
bonded to a multiaxial fabric
skin, which represent a typical
airframe structure.
MON-4_STG_5.09-14
HYBRID TEXTILES – THE
OTHER WAY OF FORMING
HIGH-PERFORMANCE THERMOPLASTIC COMPOSITES FOR
PRIMARY STRUCTURE
MON-4_AUG_4.01-03
ASSESSMENT OF FRACTURE
TOUGHNESS IN SANDWICH
STRUCTURES USING HIGH
SPEED INFRA-RED THERMOGRAPHY
MON-4_ING_6.03-03
MULTIFUNCTIONAL COMPOSITES: MODELING INTERCALATION INDUCED STRESSES
IN CONSTITUENTS OF MICRO-BATTERY
MON-4_ATH_1.01-15
OUT-OF-PLANE DEFORMATION OF CARBON-FIBER-REINFORCED-POLYMER WITH
LOCAL DAMAGE UNDER RAPID
HEATING
Maximilian Koerdt (Faserinstitut Bremen)
Patrick Schiebel (Faserinstitut
Bremen)
Oliver Focke (Faserinstitut Bremen)
Axel S. Herrmann (Faserinstitut
Bremen)
Janice Dulieu-Barton (University
of Southampton)
Ole Thybo Thomsen (University of
Southampton)
Wei Wang (University of Southampton)
Johanna Xu (Lulea University of
Technology)
Andrejs Pupurs (Lulea University
of Technology)
Göran Lindbergh (KTH Royal Institute of Technology)
Janis Varna (Lulea University of
Technology)
Yasuhiro Fukuda (Tokyo University of Science) Jun Koyanagi (Tokyo University of Science) Akinori
Yoshimura (Japan Aerospace Exploration Agency) Kenichi Hirai
(IHI Aerospace Co., Ltd.) Satoru
Yoneyama (Aoyama Gakuin University) Takuya Aoki (Japan Aerospace Exploration Agency) Toshio
Ogasawara (Tokyo University of
Agriculture and Technology)
This paper demonstrates a methodology for addressing mechanical stresses arising in a conceptualized micro battery cell during
electrochemical cycling, caused
by time dependent gradients in
lithium ion concentration distribution in the carbon fiber.
17:10
Mathieu Vinot (German Aerospace Center) Paul Schatrow
(German Aerospace Center)
Ralf Sturm (German Aerospace
Center) Frieder Heieck (University of Stuttgart) Daniel Fernández
(University of Stuttgart)
This paper introduces a new
method of producing power composites which can store (and delivering) electrical energy whilst
learning mechanical loads simultaneously.
A methodology has been developed for capturing the temperature increase at a propagating
crack using high speed IR thermography. It is shown that by
measuring the temperature the
interfacial fracture toughness can
be determined.
16:50
The ambition of the Safety-Box“
project is to increase occupant
safety of a small aircraft. The
crash behaviour of a composite
airframe has been investigated and structural improvements
have been developed in several
FE simulations.
This paper deals with the NDT
analysis of a bonded repair CFRP
laminates by means of active Infrared Thermograhy. In regard to
the close properties of the glue
and the laminates, relevant additives are used to improve the the
detection of defects.
Thermoforming of endless-fibre reinforced peek from hybrid
textiles incl. analysis of hybrid
yarns and resulting part quality,
influenced by fibre orientation
and consolidation parameters.
Concluding processing of an overmoulding step is illustrated.
16:50
17:30
In this study, we measured local
out-of-plane deformation of CFRP
ablator under rapid heating by
using stereo DIC method. And we
proposed analytical procedure in
order to reveal the mechanism of
thermal deformation of CFRP.
39
17:50
Munich (MUC)
Seville (SEV)
Venice (VEN)
MON-4_MUC_3.01-16
LEBIM PREDICTIONS FOR
FIBRE-MATRIX DEBONDS IN
UNIDIRECTIONAL FIBRE-REINFORCED COMPOSITES UNDER
BIAXIAL TRANSVERSE LOADS
MON-4_SEV_3.03-04
EVALUATION OF IMPACT DAMAGE IN CIRCULAR LAMINATES
SUBJECTED TO A TRANSVERSE
LOAD
MON-4_VEN_3.06-16
INFLUENCE OF VOID CONTENT ON THE MECHANICAL
PROPERTIES OF CARBON/PPS
LAMINATES
MON-4_BUD_3.04-16
PREDICTION OF DELAMINATION OF STEEL-POLYMER
COMPOSITES USING COHESIVE ZONE MODEL
Hiroshi Suemasu (Sophia University)
Julien Patou (Université de Toulouse)
Emmanuel De-Luycker (Université
de Toulouse)
Gerard Bernhart (Université de
Toulouse)
Jinhyeok Jang (Seoul National
University)
Minchang Sung (Seoul National
University)
Sungjin Han (Seoul National
University)
Woong-Ryeol Yu (Seoul National
University)
Luis Távara (Universidad de
Sevilla)
Vladislav Mantic (Universidad
de Sevilla)
Enrique Graciani (Universidad
de Sevilla)
Federico París (Universidad de
Sevilla)
MONDAY
18:10
MON-3
Fibre-matrix interface debond
onset and growth in a bundle of
fibres are studied numerically. A
fibre bundle subjected to far field
biaxial transverse loads is considered. LEBIM is used to model
the fibre-matrix interface cracks
behaviour.
Responses of nonlinear axisymmetric plates with multiple
delaminations subjected to a
transverse concentrated load are
approximately solved to evaluate
the significance of low velocity
foreign object damage in quasi-isotropic composite laminates.
MON-4_SEV_3.03-05
COMPUTATIONAL FRAMEWORK FOR DAMAGE MODELLING OF FIBER REINFORCED
COMPOSITES
Michael Stuebner (University of
Dayton)
Endel Iarve (University of Texas
Arlington)
Artem Aleshin (University of
South Carolina)
Eric Zhou (University of Dayton)
David Mollenhauer (Air Force Research Laboratory)
Michael Braginsky, Brent Volk (US
Air Force Research Laboratory)
An advanced framework for damage modelling in composites
applicable to a wide range of
fiber-reinforced polymer matrix
and ceramic matrix composites based on the FEM package
BSAM designed at the University
of Dayton Research Institute is
presented.
18:30
Void content of several carbon fiber/PPS powdered laminates was
investigated to assess the impact
of porosity level on mechanical
properties of thermoplastic materials. Mechanical properties were
measured and results were related to void content.
MON-4_VEN_3.06-17
CHARACTERISATION OF THE
EFFECT OF THROUGH-THICKNESS REINFORCEMENT ON
IMPACT TOLERANCE AND
OUT-OF-PLANE TENSILE PROPERTIES OF COMPOSITE MATERIALS
Winifred Obande (Univeristy of
Limerick)
Walter Stanley (University of
Limerick)
Two types of carbon-fibre reinforced benzoxazine composites
have been manufactured to characterise the effect of reinforcement architecture on impact and
out-of-plane tensile performance.
Results and observations are presented in this paper.
Budapest (BUD)
Prediction of delamination of
steel-polymer composites using
cohesive zone model and peeling tests.
Stockholm (STO)
Biarritz (BIA)
MON-4_STO_3.15-04
MECHANICAL PROPERTIES
OF GFR-POLYURETHANE AND
-EPOXY FOR IMPACT RESISTANT APPLICATIONS UNDER
SERVICE-RELEVANT TEMPERATURES
MON-4_BIA_3.11-16
LOW VELOCITY IMPACT AND
COMPRESSION AFTER IMPACT
SIMULATION OF THIN PLY
LAMINATES
Daniel Huelsbusch (Technical University of Dortmund)
Yves Mueller (HSR Hochschule für
Technik Rapperswil)
Gion Andrea Barandun (HSR
Hochschule für Technik Rapperswil)
Michael Niedermeier (HRW Hochschule Ravensburg-Weingarten)
Frank Walther (Technical University of Dortmund)
New developed GFR-Polyurethane was characterized in terms
of ILSS, CAI, tensile and fatigue
tests and compared to GFR-Epoxy used in the aerospace industry. Furthermore, the influence
of tempering on the mechanical
properties was investigated.
MON-4_BUD_3.04-17
STRATEGIES FOR MODELLING
DELAMINATION GROWTH USING ISOGEOMETRIC CONTINUUM SHELL ELEMENTS
ESCM Council Meeting 1
The paper deals with low velocity impact and compression after
impact simulations of thin ply
laminates (fabric plain weave). It
studies the effect of the constitutive law and the number of interfaces for delamination on the CAI
strength prediction.
ESCM Council Meeting 1
Experimental study of the compressive R-curve of an UD composite when submitted to dynamic loading. The data reduction
couples the concepts of energy
release rate, size effect law and
R-curve.
Speeches (MUC): Gerhard Müller, Senior Vice President Academic and Student Affairs Technical University of Munich, Germany
Franz Josef Pschierer, State Secretary in the Bavarian Ministry of Economic Affairs and Media, Germany
Herbert Zeisel, MinDirig. “Key Technologies for Growth” at the Federal Ministry of Education and Research, Germany
19:00
Round Table (MUC): THE RELEVANCE OF COMPOSITE MATERIALS FOR THE INDUSTRY AND GERMANY AS A BUSINESS LOCATION
20:00
Welcoming Reception
40
MON-4_BRU_2.02-16
LOWFLIP – TAILORED SNAPCURE PREPREGS FOR NOVEL
COMPOSITE PRODUCTION
PROCESSES
The EU-funded project LOWFLIP
is aiming to develop automated,
low cost manufacturing processes
for composite parts using tailored
snap-cure prepreg materials. The
development of these fast curing
prepregs and their properties are
presented.
Peter Kuhn (Technical University
of Munich / Institute for Carbon
Composites)
Giuseppe Catalanotti (INEGI)
José Xavier (Universidade de Trásos-Montes e Alto Douro)
Rafael Cidade (Universidade Federal do Rio de Janeiro)
Hannes Koerber (Technical University of Munich / Institute for
Carbon Composites)
Pedro Camanho (University of
Porto)
In this paper we focus on the further development of the isogeometric continuum shell element
to allow for an automated insertion of discontinuities.
Bruges (BRU)
Thomas Meinhardt (SGL Carbon
GmbH)
Isabel Harismendy (Tecnalia
Composites)
Frieder Heieck (Tecnalia Composites)
Albert Soto (University of Girona)
Emilio González (AMADE, Universidad de Girona)
Pere Maimí (AMADE, Universidad
de Girona)
Jose Ramon Sainz (Aernnova Engineering Solutions Ibérica S.A.)
Federico Martin De La Escalera
(Aernnova Engineering Solutions
Ibérica S.A.)
MON-4_BIA_3.11-17
MEASUREMENT OF FRACTURE
TOUGHNESS FOR FIBER COMPRESSIVE FAILURE MODE OF
UD COMPOSITES UNDER HIGH
RATE LOADING
Joris Remmers (Eindhoven University of Technology)
Martin Fagerström (Chalmers University of Technology)
Rhodes (RHO)
MON-4_BRU_2.02-17
VISCOELASTIC BEHAVIOUR OF
LY5052 EPOXY RESIN IN RUBBERY STATE DURING CURING
Sibin Saseendran (Swerea SICOMP)
Maciej Wysocki (Swerea SICOMP)
Janis Varna (Lulea University of
Technology)
A relationship between the rubbery modulus and the degree of
cure for partially to fully cured
LY5052 epoxy resin is investigated and experimentally tested.
Using this relationship, master
curves can be made independent
of rubbery region properties.
Brighton (BRI)
MON-4_BRI_2.07-16
UNIAXIAL LOADING OF POLYMER-EMBEDDED GRAPHENE:
IS ORTHOGONAL BUCKLING
AVOIDABLE?
Maria Giovanna Pastore Carbone
(FORTH/ICEHT) Georgia Tsoukleri
(FORTH/ICEHT) Ioannis Polyzos
(FORTH/ICEHT) John Parthenios
(Institute of Chemical Engineering Sciences/Foundation of Research and Technology Hellas)
Konstantinos Papagelis (Institute
of Chemical Engineering Sciences/Foundation of Research and
Technology Hellas) Costas Galiotis (Institute of Chemical Engineering Sciences/Foundation of
Research and Technology Hellas)
Graphene micro-ribbons have
been designed to prevent orthogonal buckling associated
with axial tensile deformation of
graphene. Micro-ribbons were
produced via UV lithography/oxygen plasma treatment and characterized by using Laser Raman
Microscopy.
MON-4_BRI_2.07-17
VERTICALLY AND DENSELY
ALIGNED REDUCED GRAPHENE
OXIDE/POLYDIMETHYLSILOXANE COMPOSITE FABRICATED
BY A TWO-STAGE REDUCTION
METHOD FOR HEAT-TRANSFER IN THERMAL INTERFACE
MATERIALS
Dong Han (Peking University)
Yun-Hong Zhao (Peking University)
Shu-Lin Bai (Peking University)
In this work, we report a more
efficient and simple method to
fabricate a thermal-reduced vertically aligned reduced graphene
oxide (TR-VArGO)/polydimethylsiloxane (PDMS) composite, which
has a high thermal conductivity of
1.349 W m-1 K-1.
Naples (NAP)
MON-4_NAP_2.06-16
SEMI INTERPENETRATING
NETWORK DERIVED FROM
POLYLACTIC ACID/POLYURETHANE BLEND AND REINFORCED WITH CELLULOSE
NANOCRYSTALS
Jatin Sethi (University of Oulu)
Mirja Illikainen (Univerisity
of Oulu)
Mohini Sain (University of Toronto)
Kristiina Oksman (Lulea University of Technology)
The primary aim of current work
is to prepare and characterize
bionanocomposites based on
cellulose nanocrystals and semiinterpenetrating networks prepared from Poly lactic acid and
Polyurethane.
MON-4_NAP_2.06-17
NANOCOMPOSITE DESIGN OF
SILICA/EPOXY RESIN SYSTEM WITH LOW THERMAL EXPANSION COEFFICIENT VIA
UNIFORM DISPERSION OF
HYDROPHILIC COLLOIDAL SILICA NANOSPHERES
Mitsuru Tanahashi (Nagoya University)
Kazuma Hirota (Nagoya University)
Possibility of designing and fabricating the silica/epoxy resin
nanocomposite system with a low
thermal expansion coefficient has
been investigated according to
design principle utilizing chemical interaction occurring at the
silica/epoxy interfaces.
London (LON)
Bordeaux (BOR)
MON-4_LON_5.06-08
DEVELOPMENT OF A HYBRID
TAIL ROTOR DRIVE SHAFT BY
THE USE OF THERMOPLASTIC
AUTOMATED FIBER PLACEMENT
MON-4_BOR_5.02-08
PROCESS-INDUCED DISTORTIONS OF COMPOSITE STRUCTURES DUE TO
THROUGH-THICKNESS FIBRE-VOLUME-FRACTION GRADIENTS
Stefan Ehard (Technical University of Munich / Institute for Carbon
Composites)
Elisabeth Ladstätter (Technical
University of Munich / Institute
for Carbon Composites)
Michael Jürgens (Airbus Group
Innovations)
Laurent Bortolotto (Airbus Helicopters)
Niklas Remer (Airbus Helicopters)
This work investigates the TP-AFP
process for joining CF/PEEK and
titanium substrates. Different
surface pre-treatments are analysed on their impact on the joint
strength. Based on this a hybrid
tail rotor drive shaft is manufactured and tested.
Fabian Groh (German Aerospace
Center)
Erik Kappel (German Aerospace
Center)
Christian Hühne (German Aerospace Center)
Florian Meyer (Audi AG)
A comprehensive experimental
study on the effect of a V f -gradient on process induced deformations (PID). Result: Occurring
local asymmetries are a second
underlying mechanism for PID
besides the classical spring-in for
RTM parts.
MON-4_LON_5.06-09
EFFECT OF PROCESS PARAMETERS ON THE QUALITY OF
LAMINATES MADE BY AUTOMATED FIBER PLACEMENT
(AFP) USING OUT-OF-AUTOCLAVE (OOA) PREPREGS
Stuttgart (STG)
MON-4_STG_5.09-15
HYBRID WELDING OF CARBON-FIBRE REINFORCED EPOXY BASED COMPOSITES
Francesca Lionetto (University
of Salento)
Silvio Pappadà (Consorzio CETMA, Departments of Materials and
Structures Engineering)
Giuseppe Buccoliero (CETMA)
Maria Nicolas Morillas (Delft University of Technology)
Irene Fernandez Villegas (Delft
University of Technology)
Alfonso Maffezzoli (University
of Salento)
A new approach for the assembly
of thermosetting composites by
induction and ultrasonic welding
was developed. A proper modification of the composite layup
with a thermoplastic film in the
stacking sequence of Carbon fabric/epoxy prepreg was proposed.
Augsburg (AUG)
Ingolstadt (ING)
Athens (ATH)
MON-4_AUG_4.01-04
CHARACTERIZATION OF DAMAGED COMPOSITE LAMINATES
USING ELECTRONIC SPECKLE
PATTERN INTERFEROMETRY
MON-4_ING_6.03-04
WIRELESS DAMAGE MONITORING SYSTEM BASED ON RFID
MON-4_ATH_1.01-16
OVERVIEW OF R&T PROGRAM
FFS: ADVANCED COMPOSITE
AEROSTRUCTURES
(ESPI) Mohamed Loukil (Swerea
SICOMP)
Janis Varna (Lulea University of
Technology)
Degradation of the elastic properties of composite laminates with
transverse cracks is due to two
parameters: the crack opening
displacement (COD) and the crack
sliding displacement (CSD). These
parameters are measured experimentally using ESPI.
MON-4_STG_5.09-16
IMPROVING THE PROCESSING
PROPERTIES OF HYBRID COMPONENTS USING INTERLOCKING EFFECTS ON SUPPORTING
STRUCTURES
Alexander Horoschenkoff (Munich
University of Applied Sciences)
Leonhard Moosreiner (Munich
University of Applied Sciences)
Tobias Müller (BMW Group)
Jürgen Rackles (Munich University
of Applied Sciences)
A new approach for radio frequency identification (RFID) has
been investigated for wireless detection of mircocracks and failure
of preform overlappings.
17:50
Mircea Calomfirescu (Airbus Defence and Space)
Edgar Mennle (Airbus Defence
and Space)
Michael Hanke (German Aerospace Center)
Christian Weimer (Airbus Group
Innovations)
Sebastian Nowotny (German
Aerospace Center)
Ulrich Christ (Bundeswehr research institute for materials, fuels and lubricants (WIWeB))
This paper gives an overview on
the R&T program FFS „Advanced
Aerostructures“ which covers
the following topics: - Structural
Bonding incl. demonstration on
Eurofighter Airbrake, - Advanced
multiband radomes for future
UAVs - Stealth Design.
18:10
Jan Beuscher (Technische Universität Braunschweig, Institut
für Werkzeugmaschinen und Fertigungstechnik) Michael Brand
(Technical University of Braunschweig) Raphael Schnurr (Technical University of Braunschweig)
Anke Müller (Technical University
of Braunschweig) Markus Kühn
(Technische Universität Braunschweig) Franz Dietrich (Technical University of Braunschweig) Klaus Dröder (Institute of
Machine Tools and Production
Technology)
Hongjie Sun (Concordia University)
Déric Godin (Concordia University)
Anqi Dong (Concordia University) Suong V. Hoa (Concordia
University)
Hasan Salek (Bombardier Aerostructures and Engineering
Services)
This paper is the study on how
different manufacturing parameters effect the quality, void
content, in laminates made from
out-of-autoclave (OOA) prepregs
and using automated fiber placement (AFP).
Multi-material design effects automation and process challenges
because of differing processing
properties of materials. This paper introduces a proposal for improving processing properties using interlocking effects between
different materials.
Speeches (MUC): Gerhard Müller, Senior Vice President Academic and Student Affairs Technical University of Munich, Germany
Franz Josef Pschierer, State Secretary in the Bavarian Ministry of Economic Affairs and Media, Germany
Herbert Zeisel, MinDirig. “Key Technologies for Growth” at the Federal Ministry of Education and Research, Germany
18:30
19:00
Round Table (MUC): THE RELEVANCE OF COMPOSITE MATERIALS FOR THE INDUSTRY AND GERMANY AS A BUSINESS LOCATION
20:00
Welcoming Reception
41
Munich (MUC)
Seville (SEV)
10:00
3.01 Fracture and Damage - Micromechanics (5/8)
3.03 Fracture and Damage - Laminate Level (2/5)
3.06 Textile Composites (5/6)
3.05 Multiscale Modeling (1/5)
TUE-1_MUC_3.01-17
LOAD TRANSFER IN A
GRAPHENE/PDMS NANOCOMPOSITE UNDER NANOINDENTATION
TUE-1_SEV_3.03-06
DAMAGE AND STRENGTH
ANALYSIS OF OPEN-HOLE
LAMINATED PLATES UNDER
TENSILE, COMPRESSIVE AND
BENDING LOADINGS
TUE-1_VEN_3.06-18
MESO-FE DAMAGE MODELLING OF 3D TEXTILE COMPOSITES USING MESH SUPERPOSITION METHOD
TUE-1_BUD_3.05-01
A LINEAR THERMO-VISCOELASTIC ORTHOTROPIC CONSTITUTIVE LAW — APPLICATION TO COMPOSITES
Ahmad Tabatabaei (KU Leuven)
Enrico Bedogni (Università di
Parma)
António Melro (University of
Bristol)
Dmitry Ivanov (University of Bristol) Stepan Lomov (KU Leuven)
Heinz E. Pettermann (Vienna University of Technology)
Antonio De Simone (Scuola Internazionale Superiore di Studi
Avanzati)
Guoxin Cao (Peking University)
Tianxiao Niu (Peking University)
Chunyang Xiong (Peking University)
Indentation response of
graphene/PDMS nanocomposite
(graphene monolayer mounted
on PDMS substrate) performed by
atomic force microscopy (AFM) is
investigated by both experiments
and computational simulations.
TUE-1_MUC_3.01-18
MICROMECHANICAL MODELLING AND SIMULATION OF
TRIANGLE-SECTION CARBON
FIBER REINFORCED POLYMER
COMPOSITES
TUE-1
TUESDAY
10:20
Lei Yang (Dalian University of
Technology)
Zhanjun Wu (Dalian University of
Technology)
Xin Liu (Dalian University of
Technology)
The mechanical and damage
behavior of unidirectional triangle-section fiber reinforced composites under transverse tension
and compression were simulated,
thus to reveal the effect of triangle-section fiber on the mechanical properties of CFRPs.
TUE-1_MUC_3.01-19
MICROMECHANICAL MODELLING OF VISCOELASTIC-VISCOPLASTIC-DAMAGE BEHAVIOUR FOR POLYAMIDE
WOVEN FABRIC COMPOSITES
UNDER CYCLIC LOADING
Francis Praud (Arts et Metiers
ParisTech)
George Chatzigeorgiou (Arts et
Métiers ParisTech)
Yves Chemisky (Arts et Métiers
ParisTech)
Fodil Meraghni (Arts et Métiers
ParisTech)
The cyclic behaviour of thermoplastic woven composites is
modelled using a multi-scale
approach based on the periodic
homogenization method in which
the microtructure effects and the
local behaviours of the matrix and
the yarns are accounted.
11:00
42
Budapest (BUD)
Stockholm (STO)
Biarritz (BIA)
Rhodes (RHO)
Bruges (BRU)
Plenary Lecture 2 (MUC) by Thomas Wolff, BMW AG, Germany: PROCESS CHAINS OF COMPOSITE TECHNOLOGIES FOR AUTOMOTIVE LIGHTWEIGHT DESIGN
9:00
10:40
Venice (VEN)
Frederic Laurin (ONERA-The
French aerospace Lab)
Cédric Julien (ONERA-The French
aerospace Lab)
Pascal Paulmier (ONERA-The
French aerospace Lab)
The present paper deals with an
experimental study on the damage and failure mechanisms encountered in laminated open-hole
plates subjected bending loading.
The intra-yarn and matrix damage
in a multi-layer 2D plain weave
glass/epoxy composite is modeled with mesh superposition
(MSP) method and the results are
compared with the experiments.
TUE-1_SEV_3.03-07
DAMAGE MODEL FOR THE
COMPOSITE MATERIAL UNDER
MUTIAXIAL LOADING
TUE-1_VEN_3.06-19
MODELING OF
THROUGH-THICKNESS INTRA-YARN FIBER VOLUME
FRACTION GRADIENTS IN
LAMINATED WOVEN FABRICS
Pavel Dodonov (Krylov State Research Center)
Nikolai Fedonyuk (Krylov State
Research Centre)
In this study we examine the
mechanical properies of the FRP
made of NCF. We‘ve analyzed
and modified damage model, and
calibrated it based on results of
cyclic multiaxial loading experiments. The model is used to predict properties of hybrid FRP.
TUE-1_SEV_3.03-08
DAMAGE SUPPRESSION IN
UD-CFRP WITH FIBRE DISCONTINUITY BY INTERLAMINAR
TOUGHENING USING POLYAMIDE MESH
Hayato Nakatani (Osaka City
University)
Tatsuya Imamura (Osaka City
University)
Katsuhiko Osaka (Osaka City
University)
Polyamide mesh is inserted into
UD-CFRP with fibre discontinuity to improve interlaminar crack
onset stress. An analytical model
successfully predicts the onset
stress by using fracture toughness
G_IIR=3.82 kJ/m^2 obtained by a
stabilized ENF test.
Mike Mühlstädt (Friedrich Schiller
University Jena)
Wolfgang Seifert (Friedrich Schiller University Jena)
Stefan Maenz (Friedrich Schiller
University Jena)
Klaus D. Jandt (Friedrich Schiller
University Jena)
Jörg Bossert (Friedrich Schiller
University Jena)
This study presents a method
to quantify intra-yarn fiber volume fraction gradients (IY-FVFG)
within laminated plain woven
fabrics. A model was proposed
to describe IY-FVFG. In addition,
the formation of IY-FVFG was investigated.
TUE-1_VEN_3.06-20
MODELLING OF THE MECHANICAL RESPONSE OF THERMOPLASTIC MATRIX TEXTILE
COMPOSITES UNDER DYNAMIC LOADING – A COMPARISON
OF METHODS
Jens Wiegand (Compact Engineering)
Holger Boehm (Technical University of Dresden)
Andreas Hornig (Technical University of Dresden)
Jan Luft (Technical University of
Dresden)
Maik Gude (Technical University
of Dresden)
The paper presents a comparison
of Continuum Damage Mechanics
and Plasticity methods for the
modelling of thermoplastic matrix
composites.
A constitutive material law for linear thermo–viscoelasticity in the
time domain under plane stress
assumption is developed, and
time dependent thermal expansion creep is treated. Various simulations on orthotropic problems
are carried out.
TUE-1_BUD_3.05-02
A MULTI-SCALE NUMERICAL
METHODOLOGY FOR PREDICTING THE MECHANICAL
PROPERTIES OF POROUS
CFRP LAMINATES USING DATA
FROM X-RAY COMPUTERIZED
TOMOGRAPHY
Konstaninos I. Tserpes (University
of Patras)
Antonis Stamopoulos (University
of Patras)
A multiscale methodology which
utilizes the porosity quantified
with XCT was developed for predicting the impact of porosity to
the mechanical performance of
CFRPs. The method was applied
to 3 porosity levels and validated
with mechanical tests.
TUE-1_BUD_3.05-03
MULTI-PHYSICS MOLECULAR-DYNAMICS-FEM FOR
THE VIRTUAL DESIGN OF
NANO-STRUCTURES AND DEVICES TOWARDS PROPERTY SPECIFICATIONS ACROSS
SCALES
Andre Wilmes (Imperial College
London)
Silvestre Pinho (Imperial College
London)
A MDFEM for any multi-physics
potential is shown. Novel Periodic
Boundary Conditions for rotations in discrete and continuum
domains with property homogenisation across scales and physics
is presented. Network-analysis
based meshing is introduced.
3.15 Analysis and Design of Damage Tolerant Composite Structures (2/2)
3.11 Dynamic Loading - Impact,
Crash, Blast (5/6)
2.10 Environmental Effects (1/1)
TUE-1_STO_3.15-05
NUMERICAL APPROACH TO
DESIGN AERONAUTICAL COMPOSITE LAMINATE BASED ON
IMPACT DAMAGE TOLERANCE
PHILOSOPHY
TUE-1_BIA_3.11-18
MODELLING OF LOW VELOCITY IMPACTS ON UNIDIRECTIONAL COMPOSITE LAMINATES USING A
SEMI-CONTINUOUS STRATEGY
TUE-1_BRU_2.10-01
CHANGES IN FIRST-PLY-FAILURE MODE OF THERMALLY DEGRADED CFRP
Nicolas Dubary (Institut Clément Ader)
Christophe Bouvet (Institut Clément Ader)
Samuel Rivallant (Institut Clément Ader)
Léon Ratsifandrihana (Segula
Technologies)
Bassam Mahmoud (Mechanical
Engineering) Marcos Colungo
Torrecilla (Universite Federale
Toulouse Midi-Pyrenees) Pablo
Navarro (Institut Clément Ader)
Steven Marguet (Institut Clément
Ader) Issam Tawk (University of
Balamand) Jean-François Ferrero
(Institut Clément Ader)
Investigating laminate‘s residual
properties in function of damage
detection is the main purpose of
design by impact damage tolerance. The first step of numerical
design approach is proposed with
the Discrete Ply Model on several
stacking sequences.
TUE-1_STO_3.15-06
NUMERICAL STOCHASTIC
STUDY OF DEFECTS IN COMPOSITE MATERIALS: INFLUENCE OF POROSITY AND
WRINKLES ON THE MECHANICAL BEHAVIOR.
Hassoun Ishak (Institut de Recherche Technologique (IRT)
Jules Verne)
Alexandre Clement (Institut de
Recherche Technologique (IRT)
Jules Verne)
Frédéric Jacquemin (Institut de
Recherche en Génie Civil et Mécanique)
In this paper we will study the influence of porosity and wrinkles
defect on the mechanical behavior of a composite materials.
TUE-1_STO_3.15-07
PLY-BY-PLY DELAMINATION
MORPHOLOGY IN COMPOSITE
LAMINATES UNDER LOW-VELOCITY IMPACT
Maria Francesca Pernice (University of Bath)
Andrew Rhead (University of
Bath)
Impact of quasi-isotropic, zero
dominated and non-symmetric
composite laminates shows delamination shape depends on the
fibre orientation in the bounding
plies at each interface and always extends in the fibre direction of the lower ply.
Coffee Break
This paper deals about the modeling of unidirectional composite laminates under low velocity
impacts. A semi-continuous FEM
strategy is presented. Drop tower
tests are perdormed to compare
with numerical results. A good
correlation is found.
TUE-1_BIA_3.11-19
NUMERICAL ANALYSIS OF
LOW VELOCITY IMPACTS ON
5HS WOVEN COMPOSITE LAMINATES P.
G. Rodríguez-Luján (Universidad
Carlos III de Madrid)
Jose Alfonso Artero-Guerrero
(Universidad Carlos III de Madrid) Jesus Pernas-Sanchez (Universidad Carlos III de Madrid)
D. Varas (Universidad Carlos III
de Madrid)
Jorge López-Puente (Universidad
Carlos III de Madrid)
This work proposes a numerical
methodology to model the response of woven laminates under
low velocity impacts. The model
is validated thorough experimental tests in which it is studied the
influence of thickness, ply sequence and ply clustering.
TUE-1_BIA_3.11-20
OPTIMAL DESIGN OF CERAMIC/SANDWICH COMPOSITE
STRUCTURES TO BETTER
RESIST FOR AP PROJECTILE
IMPACT
Sergei Sapozhnikov (South Ural
State University)
Galina A. Forental (South Ural
State University)
The typical ceramic/composite
personal protective structures
now are monolithic. Splitting
composite part into two different thickness plates we have
designed optimal sandwich structure which has 20% less weight
with the same AP resistance.
Johannes Wolfrum (Bundeswehr
research institute for materials,
fuels and lubricants (WIWeB))
E. Quan (Bundeswehr research
institute for materials, fuels and
lubricants (WIWeB))
G. Maier (Bundeswehr research
institute for materials, fuels and
lubricants (WIWeB))
The goal of these investigations
was to observe the onset of crack
propagation of increasingly thermally degraded CFRP under tensile loading by using AE analysis.
Thermal degradation was interpreted microscopically and by
µ-ATR-FTIR spectroscopy.
TUE-1_BRU_2.10-02
INFLUENCE OF WATER ON THE
CYCLIC BEHAVIOUR OF A WOVEN GLASS/PA6,6 COMPOSITE
Amélie Malpot (Institute Pprime )
Fabienne Touchard (P‘ Institute)
Sébastien Bergamo (Renault)
This study deals with the influence of moisture content on the
fatigue behaviour of a woven
glass fibre reinforced PA6,6 composite. A fatigue life model is
developed in order to predict the
fatigue life of this material in any
moisture configuration.
Brighton (BRI)
Naples (NAP)
London (LON)
Bordeaux (BOR)
Stuttgart (STG)
Augsburg (AUG)
Ingolstadt (ING)
Athens (ATH)
Plenary Lecture 2 (MUC) by Thomas Wolff, BMW AG, Germany: PROCESS CHAINS OF COMPOSITE TECHNOLOGIES FOR AUTOMOTIVE LIGHTWEIGHT DESIGN
9:00
2.06 Nano Composites (5/7)
5.06 Automated Placement Technologies (3/5)
5.14 Manufacturing of Short/Long
Fiber Composites (1/2)
5.09 Manufacturing Processes for
Thermoplastic Composites (5/7)
4.01 Full-Field Methods (2/3)
7.02 Recycling of Fibres and
Composites (1/5)
1.01 Aerospace (5/6)
TUE-1_NAP_2.06-18
POLYMERIC COMPOSITES
FILLED WITH CELLULOSE
MICRO- AND NANOCRYSTALS FOR THE RESTORATION
OF CELLULOSE-BASED ARTWORKS: CHARACTERIZATION
AND APPLICATION
TUE-1_LON_5.06-10
EXPERIMENTAL ANALYSIS OF
GAPS AND OVERLAPS CAUSED
BY INTRA-PLY SECTORIZATION IN THE THERMOPLASTIC AUTOMATED FIBER PLACEMENT PROCESS
TUE-1_BOR_5.14-01
ELECTRICAL FIELDS SIMULATION IN HETEROGENOUS
DOMAINS USING THE PROPER
GENERALIZED DECOMPOSITION
TUE-1_STG_5.09-17
INFLUENCE OF MAXIMUM
TEMPERATURE AND COOLING
PHASE ON THE LAP SHEAR
STRENGTH OF INDUCTION
JOINED GLASS FIBER REINFORCED THERMOPLASTICS
AND STEEL
TUE-1_AUG_4.01-05
DAMAGE EVOLUTION TEST
MACHINE CONTROL BASED ON
THERMOGRAPHY
TUE-1_ING_7.02-01
A COST-EFFECTIVE CHEMICAL APPROACH TO RETAINING AND REGENERATING THE
STRENGTH OF THERMALLY RECYCLED GLASS FIBRE
TUE-1_ATH_1.01-17
RADOMES – BIG SIZED COMPOSITE STRUCTURES WITH
MULTI-DISCIPLINARY REQUIREMENTS FOR UNMANNED
RECONNAISSANCE AIR PLATFORMS
Annalisa Cataldi (University of
Trento)
Flavio Deflorian (University of
Trento)
Alessandro Pegoretti (University
of Trento)
Polymeric composites filled with
micro-and nanocellulose were
developed and characterized. The
final materials with improved mechanical properties were applied
as adhesives for the oil paintings
lining and as consolidants of
damaged wood.
TUE-1_NAP_2.06-19
PRESSING-AND-FOLDING FOR
THE PREPARATION OF EFFICIENT AND HIGHLY LOADED
2D MATERIALS-BASED POLYMER NANOCOMPOSITES
Giovanni Santagiuliana (Queen
Mary University of London) Olivier T. Picot (Queen Mary University of London) Nicola Pugno
(University of Trento) Emiliano
Bilotti (Queen Mary University of
London) Ton Peijs (Queen Mary
University of London)
A new approach for the preparation of 2D materials-based polymer nanocomposites called Pressing & Folding, which allows the
blending of materials with very
different flow behaviours, differently from traditional techniques
combined with static-mixers.
TUE-1_NAP_2.06-20
QUANTIFICATION OF INCORPORATION OF CELLULOSE
NANOCRYSTALS AND CARBON
NANOTUBES IN MELT COMPOUNDED THERMOPLASTICS
USING RAMAN IMAGING
Anna E. Lewandowska (University
of Exeter)
Stephen Eichhorn (University
of Exeter)
The contribution presents the
advantages of Raman imaging
as a complementary method
to the conventional analytical
techniques used to investigate
nanocomposites. Raman imaging
delivers broad information about
the mixing of fillers and thermoplastics.
Thomas Zenker (Fraunhofer ICT)
Christian Schuerger (Fraunhofer ICT)
Gap and overlap configurations
were analyzed experimentally for
the thermoplastic AFP-process in
terms of preform surface homogeneity and influence on the layup
of subsequent plies. Post-consolidation fiber angle distribution
was investigated.
TUE-1_LON_5.06-11
OPTICAL MODELLING OF VCSEL-ASSISTED THERMOPLASTIC TAPE PLACEMENT
Thomas Weiler (Aachen Center
for integrative Lightweight Production) Michael Emonts (RWTH
Aachen Univeristy) Stephan
Gronenborn (Philips Photonics)
Henning Janssen (Fraunhofer IPT)
A method for the calculation of
the process intensity distribution
in the nip zone area of VCSEL-assisted tape placement is presented and for two processing scenarios were analyzed: one for tape
laying and one for tape winding.
TUE-1_LON_5.06-12
LOWFLIP – AN INNOVATIVE DIRECT 3D PLACEMENT
TECHNOLOGY FOR PLIES AND
TAPES
Marko Szcesny (University of
Stuttgart) Frieder Heieck (University of Stuttgart)
Peter Middendorf (University of
Stuttgart) Riccardo Mezzacasa
(Fundacion TECNALIA Research
and Deveopment) Xabier Irastorza (Fundacion TECNALIA Research and Deveopment) Harald
Sehrschön (FILL GmbH) Michael
Schneiderbauer (FILL GmbH)
A novel direct 3d placement
method for plies and tapes developed within the LowFlip research
project is presented. In addition
data on a new out of autoclave
prepeg with snap cure abilities
and energy efficient tooling solutions are introduced.
Chady Ghnatios (Notre Dame University-Louaize)
Francisco Chinesta (Ecole Centrale Nantes)
Anais Barasinski (Ecole Centrale
de Nantes)
Martina Hümbert (Institute for
Composite Materials)
Peter Mitschang (Institute for
Composite Materials)
In this paper we model and simulate the compression molding of
composite inserts inside a liquid
matrix. Inserts can be unidirectional prepreg patches or fabrics.
The modelling is based on the
Ericksen flow formulation and the
simulation on the PGD.
This study investigates the influence of joining temeprature and
the temperature range during
which pressure is applied on the
joint strength of glas fiber reinforced thermoplastics and steel
joined by induction joining.
TUE-1_BOR_5.14-02
ADVANCED MODEL ORDER
REDUCTION FOR SIMULATING COMPOSITES FORMING
PROCESSES
TUE-1_STG_5.09-18
INTRINSIC MANUFACTURE
AND DESIGN OF POSITIVE
LOCKING FIBRE REINFORCED
THERMOPLASTIC/METAL HOLLOW STRUCTURES
Anais Barasinski (Ecole Centrale
de Nantes) Emmanuelle Abisset-Chavanne (Ecole Centrale
Nantes) Chady Ghnatios (Notre
Dame University-Louaize) Jose Vicente Aguado (Ecole Centrale de
Nantes) Domenico Borzacchiello
(Ecole Centrale Nantes) Francisco
Chinesta (Ecole Centrale Nantes)
This work concerns the integration of model order reduction
techniques for elaborating Simulation Apps allowing real-time
evaluation of process conditions
in the field of composites manufacturing ptocesses.
TUE-1_BOR_5.14-03
DEVELOPMENT OF ADVANCED
3D PROCESS SIMULATION FOR
CARBON FIBER SHEET MOLDING COMPOUNDS IN AUTOMOTIVE SERIES APPLICATIONS
Vitali Romanenko (BMW Group)
Miro Duhovic (Institute for Composite Materials)
Joachim Hausmann (Institute for
Composite Materials)
Johannes Eschl (BMW Group)
This work deals with a new approach for compression molding
simulation using the coupled-eulerian method. First results for
filling behavior are compared to
experimental studies. Finally, a
concept for mapping of fiber orientations is shown.
Coffee Break
Daniel Barfuss (Technical University of Dresden) Raik Grützner
(Fraunhofer IWU) Christian Garthaus (Technical University of
Dresden) Maik Gude (Technical
University of Dresden)
An efficient and intrinsic manufacturing approach for hollow fibre reinforced thermoplastic profiles with multi-scale structured
metallic load introduction elements has been developed.
James Thatcher (University of
Southampton)
D.A. Crump (University of Southampton)
Peter Bailey (Instron)
Janice Dulieu-Barton (University
of Southampton)
The possibility of controlling the
rate of damage evolution during
a cyclic test, using IRT, is investigated. The results, to establish
the relationship between the recorded temperature change and
damage condition in composite
material, are described.
Sairah Bashir (University of
Strathclyde) Liu Yang (University
of Strathclyde) R. Anderson (University of Strathclyde)
N. B. Basri (University of
Strathclyde) E. Saez-Rodriguez John Liggat (University of
Strathclyde) James Thomason
(University of Strathclyde)
This paper explores alkaline treatments applied to thermally damaged glass fibres with the aim
of restoring strength. Successful
strength increase could potentially lead to reuse of thermally recycled glass filaments in composite
applications.
TUE-1_AUG_4.01-06
DETECTION OF DELAMINATIONS IN 5-HARNESS SATIN
GFRP EPOXY LAMINATES USING DIC
TUE-1_ING_7.02-02
A DRY ALIGNING METHOD OF
RECYCLED DISCONTINUOUS
FIBERS FOR HIGH PERFORMANCE CFRTP
Osman Ajmal (University of Surrey) Andrew Crocombe (University of Surrey) Michael Gower
(NPL) David Jesson (University of
Surrey) Stephen Ogin (University
of Surrey)
Miyake Takushi (Gifu University)
Imeda Satoshi (Gifu University)
3D-DIC can be used to detect the
presence and size of fully embedded delaminations within GFRP
panels. This paper considers two
types of delamination inserts
from which the position and size
of the defects were clearly visible
from the DIC results.
A dry fiber alignment method
is newly developed for long reclaimed carbon fiber by utilizing
modified yarn manufacturing process with using fluffy synthetic
fibers as suspension of discontinuous carbon fiber.
10:00
Heinz Meister, Clemens Brand,
Peter Starke (Airbus Defence and
Space) Georg Doll, Jürgen Mosch
(German Aerospace Center) Ulrich
Christ, Thomas Krell (Bundeswehr
research institute for materials,
fuels and lubricants (WIWeB))
A radome as a large composite
structure was sized and designed
for electromagnetic transparency. In order to analyze compliance with other multidisciplinary
requirements, manufacturing,
structural and other properties
were tested.
TUE-1_ATH_1.01-18
STRUCTURAL ADHESIVE
BONDING OF AIRCRAFT
STRUCTURES - THE NECESSITY
FOR RELIABLE AND ROBUST
PROCESSES
10:20
Jens Holtmannspötter (Bundeswehr research institute for materials, fuels and lubricants (WIWeB)) F. Zimmer (Bundeswehr
research institute for materials,
fuels and lubricants (WIWeB))
B. Schneider (Bundeswehr research institute for materials,
fuels and lubricants (WIWeB)) T.
Hofmann (Bundeswehr research
institute for materials, fuels and
lubricants (WIWeB)) H.-J. Gudladt
(Bundeswehr research institute
for materials, fuels and lubricants
(WIWeB))
Structural adhesive bonding of
aircraft structures - the necessity
for reliable and robust processes.
TUE-1_STG_5.09-19
LASER HEAT CONDUCTION
WELDING OF INLINE CLEANED
ENDLESS CARBON FIBRE REINFORCED THERMOPLASTICS
Verena Wippo (Laser Zentrum
Hannover e.V.)
Jörg Ihde (Fraunhofer IFAM) Peter Jäschke (Laser Zentrum Hannover e.V.)
T. Wuebben (Fraunhofer IFAM)
Peter Linde (Airbus Operations)
Oliver Suttmann (Laser Zentrum
Hannover e.V.)
L. Overmeyer (Laser Zentrum
Hannover e.V.)
Laser transmission welding was
transferred to heat conduction
welding for joining endless carbon fiber reinforced thermoplastics. The influence of surface
contaminations and the effect of
the removal technique on the lap
shear strength were studied.
TUE-1_AUG_4.01-07
EVALUATING DELAMINATION
GROWTH IN COMPOSITES
UNDER DYNAMIC LOADING
USING INFRARED THERMOGRAPHY
Jagadeesh Narayana swamy (Delft
University of Technology)
Francisco Lahuerta (WMC, Knowledge centre)
Andrei Anisimov (Delft University
of Technology)
Rogier Nijssen (Knowledge Centre WMC)
R. M. Groves (Delft University of
Technology )
A novel method to use infrared
thermography technique for the
quantitative analysis of delamination area in composites under
fatigue loading. The output of the
test was promising and can be extended for more experimental and
computational research.
TUE-1_ING_7.02-03
CARBON COMPOSITES RECYCLING STRATEGIES AND
THEIR REALIZATION FOR NEW
PRODUCTS
Stefan Schlichter (ITA Augsburg
gGmbH)
Carbon waste is difficult to process on textile equipment due to
a lack of “typical textile” properties. It is therefore necessary to
modify all machines and working
elements in a typical textile recycling line to achieve acceptable
results.
TUE-1_ATH_1.01-19
THE FUTURE MOBILE REPAIR
SYSTEM - A TECHNOLOGY
DEMONSTRATOR FOR THE AUTOMATED REPAIR OF CARBON
FIBER REINFORCED PLASTICS
10:40
Jens Holtmannspötter (Bundeswehr research institute for materials, fuels and lubricants (WIWeB)) J. de Freese (Bundeswehr
research institute for materials,
fuels and lubricants (WIWeB)) J.
C Meyer (Bundeswehr research
institute for materials, fuels and
lubricants (WIWeB)) M. Niedernhuber (Bundeswehr research
institute for materials, fuels and
lubricants (WIWeB)) F. Feucht
(Bundeswehr research institute
for materials, fuels and lubricants
(WIWeB))
Automation of CFRP repair. Scarfing with a mobile five axis milling system.
11:00
43
Munich (MUC)
11:30
3.06 Textile Composites (6/6)
3.05 Multiscale Modeling (2/5)
TUE-2_MUC_3.01-20
MICROMECHANICS AS A
VIRTUAL TESTING TOOL TO
UNDERSTAND DAMAGE BEHAVIOURS OF CONTINUOUS
FIBRE-REINFORCED THERMOPLASTIC COMPOSITES
TUE-2_SEV_3.03-09
EFFECT OF THE PLY STACKING SEQUENCE ON THE
TRANSLAMINAR FRACTURE
COHESIVE LAW
TUE-2_VEN_3.06-21
MODIFICATION OF ENERGY
RELEASE RATES IN TEXTILE
REINFORCED THERMOPLASTIC COMPOSITES TO CONTROL
DELAMINATION CHARACTERISTICS
TUE-2_BUD_3.05-04
A RATIONAL FIBRE PACKING
DESCRIPTION TO MODEL AND
PREDICT THE EFFECTIVE DIFFUSIVITY/CONDUCTIVITY OF
A TRANSVERSELY RANDOM
UD COMPOSITE: AN ANALYTICAL AND NUMERICAL-BASED
APPROACH
TUE-2_MUC_3.01-21
MICROSCALE MODELING OF
PAPER
TUE-2
TUESDAY
Yujun Li (RWTH Aachen Univeristy)
Scott Stapleton (University of
Massachusetts Lowell)
Stefanie Reese (RWTH Aachen
University)
Jaan-Willem Simon (RWTH
Aachen University)
This study aims to predict the mechanical properties of the paper
layer by using a three-scale approach. The homogenization was
performed first on the fiber wall
level, and then on the generated
artificial fiber network.
TUE-2_MUC_3.01-22
MODELLING AND QUANTIFYING MODE I INTERLAMINAR FRACTURE IN PARTICLE-TOUGHENED CFRP
MATERIALS
Gregor Borstnar (University of
Southampton)
Mark Mavrogordato (University of
Southampton)
Mark Kazakov (UVICOM Co.Ltd)
Qingda Yang (University of Miami) Ian Sinclair (University of
Southampton) Mark Spearing
(University of Southampton)
Computed Tomography was used
to capture Mode I delamination
propagation in particle-toughened carbon/epoxy laminates.
Digital Volume Correlation was
used to quantify the strains ahead
of the crack tip, which were compared to a plane strain FE model.
44
Budapest (BUD)
3.03 Fracture and Damage - Laminate Level (3/5)
We used a micromechanical
model to predict damages in
thermoplastic composites and to
understand their controlling parameters. We found that the ductility of the composite is mainly
affected by inter-fibre distance
rather than matrix ductility.
12:10
Venice (VEN)
3.01 Fracture and Damage - Micromechanics (6/8)
Ditho Pulungan (King Abdullah
University of Science and Technology (KAUST)) Gilles Lubineau
(King Abdullah University of Science and Technology (KAUST))
Arief Yudhanto (King Abdullah
University of Science and Technology (KAUST))
Recep Yaldiz (SABIC T&I Corporate Research & Development,
Composites) Warden Schijve
(SABIC T&I Corporate Research &
Development, Composites)
11:50
Seville (SEV)
Adrián Ortega Novillo (AMADE,
Universidad de Girona)
Pere Maimí (AMADE, Universidad
de Girona)
Emilio González (AMADE, Universidad de Girona)
Jose Ramon Sainz (Aernnova Engineering Solutions Ibérica S.A.)
Federico Martin De La Escalera
(Aernnova Engineering Solutions
Ibérica S.A.)
The translaminar Cohesive Law
of several hybrid laminates are
measured from the fracture test
of a Compact Tension specimen.
The measured Cohesive Laws are
analyzed by comparing the different locations of each material
along the laminate.
TUE-2_SEV_3.03-10
APPLICATIONS OF EQUILIBRIUM OF CONFIGURATIONAL
FORCES FOR THE MEASUREMENT OF COHESIVE LAWS
Ulf Stigh (University of Skövde)
A methodology to develop test
set-ups to measure cohesive laws
is presented. This is based on
equilibrium of configurational
forces. Methods to measure data
for adhesive layers and kinkbands in unidirectional composites are given.
Moritz Kuhtz (Technical University of Dresden)
Andreas Hornig (Technical University of Dresden)
Maik Gude (Technical University
of Dresden)
Sébastien Joannès (MINES ParisTech)
Eveline Hervé-Luanco (University
of Versailles)
Stockholm (STO)
2.09 Non-Polymer Matrix Composites (1/1)
TUE-2_STO_3.14-01
COMPRESSIVE PROPERTIES OF INSITU (AL3ZR+AL2O3)/2024AL COMPOSITES WITH A NETWORK
REINFORCEMENT ARCHITECTURE
TUE-2_BIA_3.11-21
OUT OF PLANE IMPACT ON
WOVEN COMPOSITES PLATES:
EFFECTS OF THICKNESS, PLY
SEQUENCE AND PLY CLUSTERING.
TUE-2_BRU_2.09-01
EVALUATION OF ALUMINA AS
PROTECTIVE COATING FOR
CARBON FIBERS IN ALUMINUM-BASED COMPOSITES
Balasubramaniam Kaveendran
(Harbin Institute of Technology)
Gui Song Wang (Harbin Institute
of Technology)
Lin Geng (Harbin Institute of
Technology)
Lu Jun Huang (Harbin Institute of
Technology)
Yi Sun (Harbin Institute of Technology)
TUE-2_VEN_3.06-22
FAILURE BEHAVIOUR OF TRIAXIAL BRAIDED COMPOSITES
TUE-2_BUD_3.05-05
A STATICALLY COMPATIBLE LAYERWISE STRESS APPROACH FOR MULTILAYERED
MATERIALS
TUE-2_STO_3.14-02
DESIGNING TOUGHER MICROSTRUCTURES BY 3D PRINTING
OF CONTINUOUS FIBRE-REINFORCED COMPOSITES
Rawad Baroud (Ecole des Ponts
ParisTech)
Karam Sab (Navier Laboratory,
Ecole des Ponts ParisTech)
Jean-François Caron (Navier Laboratory, Ecole des Ponts ParisTech)
Fouad Kaddah (Universite Saint
Joseph) Wassim Raphael (Universite Saint Joseph)
Yentl Swolfs (KU Leuven)
Silvestre Pinho (Imperial College
London)
TUE-2_SEV_3.03-11
FRACTURE ASPECTS OF QUASI-ISOTROPIC CFRP LAMINATES UNDER UNIAXIAL COMPRESSION
TUE-2_VEN_3.06-23
THREE-DIMENSIONAL TEXTILE
STRUCTURAL COMPOSITES
WITH NEGATIVE POISSON’S
RATIO
Yuuki Kano (Nagoya University)
Masahiro Arai (Nagoya University)
Eiichi Hara (Japan Aerospace Exploration Agency)
Takashi Ishikawa (Nagoya University)
Keita Goto (Nagoya Univeristy)
Lili Jiang (Hong Kong Polytechnic
University)
Lin Zhou (Hong Kong Polytechnic
University)
Kun Xu (Chinese Academy of
Sciences)
Hong Hu (Hong Kong Polytechnic
University)
We conducted compressive tests
with coupon specimens observing
failure of quasi-isotropic CFRP
laminates. High speed imaging
has been employed to find the location of initial fracture and illustrate the subsequent damages of
the laminates.
Two types of 3D auxetic textile
structural composites were developed. They show different compressive properties and Poisson‘s
ratio due to the difference of reinforcement structures. Composite
B is better suitable for using as
protection materials.
This paper presents a new layerwise model for multilayered
plates, named SCLS1, as an
abbreviation of Statically Compatible Layerwise Stresses with
first-order membrane stress approximations per layer in thickness direction.
TUE-2_BUD_3.05-06
ATOMISTIC SIMULATION OF
YIELD AND RUPTURE IN POLYMER MATRIX COMPOSITES
Timothy Breitzman (U.S. Air Force
Research Laboratory)
Stephen Barr (Universal Technology Corporation)
Gary S. Kedziora (Engility Corporation)
James Moller (Miami University)
Allison Ecker (University of
Dayton)
Dhriti Nepal (Air Force Research
Laboratory) Rajiv Berry (Air Force
Research Laboratory)
A multiscale quantum mechanics
and molecular mechanics framework is presented which seeks to
inform micro scale material response laws.The simulations are
focused on efficient and accurate
prediction of bond scission in
polymer networks.
Bruges (BRU)
3.11 Dynamic Loading - Impact,
Crash, Blast (6/6)
Diffusivity properties of fibre
reinforced materials are homogenized by a Morphological
Representative Pattern-based approach. Fibre packing effects and
the influence of interphase areas
are investigated. Closed-form analytical relations are given.
The non-linear mechanical response of triaxial braided composites is predicted using meso-scale finite element unit cells.
Rhodes (RHO)
3.14 Novel Composite Microstructures: Design and/or Prototyping (1/2)
In the this study a modification
strategy is presented to adjust the
interlaminar properties and the
corresponding delamination characteristics of a textile reinforced
thermoplastic composite, consisting of glass fibre reinforced polypropylene.
Tobias Wehrkamp-Richter (Technical University of Munich / Institute for Carbon Composites)
Silvestre Pinho (Imperial College
London)
Roland Hinterhölzl (Technical
University of Munich / Institute
for Carbon Composites)
Biarritz (BIA)
The superior compressive properties of 2024Al matrix composites with a network distribution
of reinforcements (insitu Al3Zr
and Al2O3 particles) compared
to a similar composite with a random discrete distribution of reinforcements.
A finite element model for maximising the translaminar fracture
toughness of fibre-reinforced
composites was developed. The
optimised microstructures were
then 3D printed with continuous
fibres and tested experimentally.
TUE-2_STO_3.14-03
EXPERIMENTAL INVESTIGATIONS ON THE MECHANICAL PROPERTIES OF NEW
TYPE OF INTERPENETRATING
PHASE COMPOSITE BASED
ON SCHWARTZ PRIMITIVE
TRIPLY PERIODIC MINIMAL
SURFACES
Oraib Al-Ketan (Masdar Institute of Science and Technology)
Rashid Abu Al Rub (Masdar Institute of Science and Technology)
A new type of interpenetrating
phase composite (IPC) is introduced. The composite has a reinforcement phase designed mathematically based on Schwartz
Primitive (P) triply periodic minimal surfaces (TPMS).
P. G. Rodríguez-Luján (Universidad Carlos III de Madrid)
Jesus Pernas-Sanchez (Universidad Carlos III de Madrid)
Jose Alfonso Artero-Guerrero
(Universidad Carlos III de Madrid) D. Varas (Universidad Carlos
III de Madrid)
Jorge López-Puente (Universidad
Carlos III de Madrid)
This work proposes an experimental methodology to study the
response of woven laminates under low velocity impacts. The test
are designed in order to study
the influence of thickness, ply sequence and ply clustering.
TUE-2_BIA_3.11-22
PREDICTION OF THE ENERGY
ABSORPTION BEHAVIOUR OF
LARGE COMPOSITE COMPONENTS SUBJECTED TO IMPACT
LOADS – ASSESSMENT OF INDIVIDUAL MECHANISMS AT
PLY SCALE
Martin Schwab (Vienna University
of Technology)
Heinz E. Pettermann (Vienna University of Technology)
An efficient modelling strategy for
simulating impact on structural
composite components is presented. Thereby, an embedding
approach combined with shell element based discretisation allows
to keep the computational effort
within reasonable bounds.
TUE-2_BIA_3.11-23
STRUCTURAL OPTIMISATION
OF A COMPOSITE AIRCRAFT
FRAME FOR A CHARACTERISTIC RESPONSE CURVE
Lennart Weiß (German Aerospace
Center)
Hardy Köke (German Aerospace
Center)
Martin Schlueter (Hokkaido University)
Christian Hühne (German Aerospace Center)
An heuristic optimisation technique for a desired dynamic response curve of CFRP z-frames
used in aerospace applications
is investigated. A mixed-integer
distributed ant colony (MIDACO)
algorithm was applied to identify
dimensions and laminates.
Mario Krug (Fraunhofer IKTS)
Alfaferi Zainal Abidin (Fraunhofer IKTS)
Mandy Höhn (Fraunhofer IKTS)
Piotr Malczyk (Technical University of Dresden)
Ingolf Endler (Fraunhofer IKTS)
Alexander Michaelis (Fraunhofer IKTS)
Al2O3-coated textile preforms
infiltrated with 239D were dense
with very low residual porosity.
Alumina layer works properly to improve wettability with
239D-melt. But the alumina layer
degrades by the reaction with the
alloy component Mg.
TUE-2_BRU_2.09-02
HYBRID SOL-GEL THIN FILMS
WITH ALUMINA NANOPARTICLES WITH HYDROPHOBIC
PROPERTIES
Francisco Carreño (Universidad
Complutense de Madrid)
Oscar Rodriguez (Universidad
Complutense de Madrid)
Noemi Carmona (Universidad
Complutense de Madrid)
We have prepared hybrid silica-alkylsiloxane thin films. Samples have been characterized by
scanning electron microscopy
and water contact angle measurements. The results show a 130º
water contact angle for the ‘up to
date’ best set of parameters.
TUE-2_BRU_2.09-03
NEWS INDICATORS FOR THE
DAMAGE EVOLUTION AT HIGH
TEMPERATURE UNDER AIR OF
A SIC/[SI-B-C] COMPOSITE
SUBJECTED TO CYCLIC AND
STATIC LOADING
Elie Racle (INSA de Lyon)
Nathalie Godin (INSA de Lyon)
Pascal Reynaud (INSA de Lyon)
Mohamed R‘Mili (INSA de Lyon)
Gilbert Fantozzi (INSA de Lyon)
Carole Rakotoarisoa (Snecma)
Florent Bouillon (Herakles (SAFRAN)) Myriam Kaminski (ONERAThe French aerospace Lab)
Different approaches based on
acoustic emission are developped
to quantify damage along the
fatigue tests. New indicators of
damage based on acoustic energy
highlight critical times allowing
an evaluation of the remaining
lifetime.
Brighton (BRI)
Naples (NAP)
London (LON)
Bordeaux (BOR)
Stuttgart (STG)
Augsburg (AUG)
Ingolstadt (ING)
Athens (ATH)
2.08 Fiber-Hybrid Composites (1/1)
2.06 Nano Composites (6/7)
5.06 Automated Placement Technologies (4/5)
5.14 Manufacturing of Short/Long
Fiber Composites (2/2)
5.09 Manufacturing Processes for
Thermoplastic Composites (6/7)
4.01 Full-Field Methods (3/3)
7.02 Recycling of Fibres and
Composites (2/5)
1.01 Aerospace (6/6)
TUE-2_BRI_2.08-01
IMPROVED MECHANICAL AND
ELECTRICAL PROPERTIES OF
CFRP MULTIAXIAL LAMINATES
BY EMBEDDED METAL FIBERS
TUE-2_NAP_2.06-21
SIMULTANEOUSLY TOUGHENED AND ELECTRICALLY
CONDUCTIVE EPOXY RESIN
FORMULATIONS - THE EFFECT
OF TOUGHENER ON THE MECHANICAL AND ELECTRICAL
PROPERTIES
TUE-2_LON_5.06-13
MAXIMIZING THE OUT-OFPLANE PERMEABILITY OF
PREFORMS MANUFACTURED
BY DRY FIBER PLACEMENT
TUE-2_BOR_5.14-04
FIBER AND RESIN FLOW EVALUATION OF SHORT CARBON
FIBER-REINFORCED COMPOSITES USING MOVING PARTICLE SEMI-IMPLICIT PARTICLE-SIMULATION METHOD
TUE-2_STG_5.09-20
MECHANICAL PERFORMANCE
OF LONG FIBRE REINFORCED
STIFFENER PANELS MANUFACTURED USING LASER
WELDING
TUE-2_AUG_4.01-08
FULL FIELD NON-DESTRUCTIVE EVALUATION OF COMPOSITE STRUCTURES USING
VIBRATION BASED LOADING
TUE-2_ING_7.02-04
CATALYSED THERMAL DECOMPOSITION OF MATRICES FOR
CLOSED-LOOP RECYCLING OF
FIBRE REINFORCED THERMOSETS
TUE-2_ATH_1.01-20
THERMOPLASTIC COMPOSITES FOR AEROSPACE APPLICATIONS, DEVELOPMENTS TOWARDS HIGH-TEMPERATURE
MATERIALS
Kyle Pender (University of
Strathclyde)
Liu Yang (University of
Strathclyde)
Hans Luinge (TenCate Advanced
Composites)
Joris Markenstein (TenCate Advanced Composites)
Martino Marchetti (Delft University of Technology)
Theo Dingemans (Delft University
of Technology)
Benedikt Hannemann (Institute
for Composite Materials)
Sebastian Backe (Institute of
Materials Science and Engineering (WKK))
Sebastian Schmeer (Institute for
Composite Materials)
Frank Balle (Technical University
of Kaiserslautern)
Ulf P. Breuer (Institute for Composite Materials)
Gökhan Bakis (University of
Bayreuth)
Rico Zeiler (University of
Bayreuth)
Holger Deutges (University of
Bayreuth)
Volker Altstädt (University of
Bayreuth)
A steel and carbon fiber reinforced epoxy is investigated.
Tests are conducted on coupons
with different metal fiber volume
fractions and various laminate
archtitectures to analyze the electrical and mechanical material
properties.
In this research, simultaneously
toughened and electrically conductive epoxy composites are
produced. Organic tougheners
showed enormous effect not only
on fracture toughness but as well
on electrical conductivity by affecting conducting network.
TUE-2_BRI_2.08-02
INTERLAMINAR AND INTRALAMINAR PROPERTIES OF CARBON SPREAD TOW AND GLASS
FIBRE HYBRID COMPOSITES
FOR COST SAVING IN THE
MASS PRODUCTION OF AUTOMOTIVE COMPONENTS
TUE-2_NAP_2.06-22
STUDY OF PHYSICO-CHEMICAL, STRUCTURAL, THERMAL
AND IN-VITRO CHARACTERISTICS OF ZINC AND MAGNESIUM SUBSTITUTED NANODIMENSIONAL HYDROXYAPATITE
Tomas Katafiasz (Imperial College
London)
Lorenzo Iannucci (Imperial College London)
Emile Greenhalgh (Imperial College London)
Characterising cost effective
materials such as fibre hybrid
composites is important in the
automotive industry. This paper
addresses two typical component
failure modes found within such
hybrids, these being interlaminar
and intralaminar failure.
TUE-2_BRI_2.08-03
MODELLING THE TENSILE
FAILURE OF HYBRID POLYMER
COMPOSITES
Rodrigo Tavares (Faculdade de
Engenharia da Universidade
do Porto)
António Melro (University of Bristol) Albert Turon (AMADE, Universidad de Girona)
Pedro Camanho (University of
Porto)
A micromechanical model that
takes into account the statistical nature of fibre strength and
the proper constitutive response
of the matrix and fibre-matrix
interface is developed to study
the tensile failure of hybrid and
non-hybrid composites.
Seema Kapoor (Panjab University) Uma Batra (PEC University
of Technology) Sonia Sharma
(Panjab University) Suchita Kohli
(Panjab University)
Nanodimensional zinc and magnesium substituted hydroxyapatite powders were synthesized
via a sol-gel route. Comprehensive characterization techniques
provided experimental evidence
of the effects of ion substitution
on physicochemical, thermal
and bioactive behavior of nanopowders.
TUE-2_NAP_2.06-23
THE FRACTURE PERFORMANCE
AND PARTICLE DISPERSION
OF RUBBER- AND NANOSILICA
PARTICLE-MODIFIED EPOXIES
Tasnuva Khaleque (Imperial College London)
Soraia Pimenta (Imperial College
London)
Ambrose C. Taylor (Imperial College London)
The microstructure and fracture
performance of an anhydride
cured epoxy polymer modified by
preformed core-shell rubber particles and nanosilica particles are
investigated. A quantitative study
of the dispersion of particles is
also performed.
Oliver Rimmel (Institute for Composite Materials)
David Becker (Institute for Composite Materials)
Jens Mack (Institute for Composite Materials)
Peter Mitschang (Institute for
Composite Materials)
Within this study influences on
the out-of-plane permeability
were investigated. The considered parameters were related to
the material (e.g. binder amount)
as well as the layup process and
subsequent process steps.
Mahiro Teratani (Osaka University)
Kazutaka Mukoyama (Osaka University)
Shuhei Matsuzawa (Osaka University)
Kenta Mitsufuji (Osaka University)
Fumikazu Miyasaka (Osaka University)
Koushu Hanaki (Osaka University)
Tetsusei Kurashiki (Osaka University)
Flowability of resin and fibers
during press forming of short fiber-reinforced composites is evaluated by using Moving Particle
Semi-implicit method.
TUE-2_LON_5.06-14
EFFECT OF MATERIAL CHARACTERISTICS ON THE LAYUP
QUALITY OF THE CONTINUOUS MULTI-TOW SHEARING
(CMTS) PROCESS
TUE-2_BOR_5.14-05
ON THE RELEVANCE OF THE
JEFFERY AND THE FOLGAR &
TUCKER MODELS IN THE SIMULATION OF SHORT FIBER
SUSPENSIONS KINEMATICS
Evangelos Zympeloudis (University of Bristol)
Kevin Potter (University of
Bristol)
Paul Weaver (University of
Bristol)
Byung Chul Kim (University of
Bristol)
Marta Pérez (Ecole Centrale de
Nantes)
Adrien Scheuer (Université
Catholique de Louvain)
Emmanuelle Abisset-Chavanne
(Ecole Centrale Nantes)
Francisco Chinesta (Ecole Centrale Nantes)
Roland Keunings (Université
Catholique de Louvain)
CMTS is a novel material placement technology, with an advanced steering capability, that
can increase the complexity of the
parts that can be manufactured
using automated methods.
TUE-2_LON_5.06-15
PREFORMING 2.0: WASTE EFFICIENT, FAST & TAILORED
LAYUPS
Thomas Dobiasch (Compositence
GmbH)
The avoidance of waste compared
with a high productive are key
factors to meet the commercial
customer expectations for a serial
production of products made out
of composite materials.
The classical Jeffery and Folgar &
Tucker models are analyzed using
a kinetic theory based approach,
testing the model hypotheses influence on the fiber kinematics.
TUE-2_BOR_5.14-06
OPTIMIZATION OF PROCESS
CHAIN FOR CONTINUOUS-DISCONTINUOUS LONG FIBER REINFORCED POLYMER STRUCTURES
Woramon Pangboonyanon (Karlsruhe Institute of Technology)
Marielouise Zaiß (Karlsruhe Institute of Technology)
Jürgen Fleischer (Karlsruhe Institute of Technology)
Gisela Lanza (Karlsruhe Institute
of Technology)
This paper considers the necessity of the preform step, the
possibility to integrate the unidirectional tape with sheet molding
compound and the quality assurance for these continuous-dicontinuous-semi-finished parts.
Peter Hansen (Element Materials
Technology)
Verena Wippo (Laser Zentrum
Hannover e.V.)
Sean Cooper (AGC AeroComposites)
Dave Conway (AGC AeroComposites)
Choothum Jeenjitkaew (Element
Materials Technology)
Peter Jäschke (Laser Zentrum
Hannover e.V.)
Rachael Tighe (University of
Southampton)
Janice Dulieu-Barton (University
of Southampton)
As the first step towards strain
based non-destructive evaluation
using complimentary approaches,
thermoelastic stress analysis and
lock-in digital image correlation
are used for the inspection of
composite components using vibration based loading.
An investigation into catalysed
thermal decomposition of epoxy
resin was carried out with the
goal to improve the commercial
viability of glass/carbon fibre reinforced thermoset recycling.
Laser transmission welding was
applied to join glass fibre fabric
reinforced polyetherimide materials in stiffened panels. Mechanical test were performed to compare the laser welded specimens
with adhesively bonded coupons
in static and fatigue tests.
TUE-2_STG_5.09-21
MANUFACTURING OF A CARBON/POLYAMIDE BEAM BY
VACUUM ASSISTED PULTRUSION
TUE-2_AUG_4.01-09
HIGH RESOLUTION DIGITAL
IMAGE CORRELATION STRAIN
MEASUREMENTS OF ADHESIVELY BONDED JOINTS
Felix Lapointe (Polytechnique
Montreal) Arnold Oswald (Ecole
Polytechnique Montréal)
Asami Nakai (Gifu University)
Louis Laberge Lebel (Ecole Polytechnique Montréal)
Jens Kosmann (German Aerospace
Center) Thomas Löbel (German
Aerospace Center)
Dirk Holzhüter (German Aerospace Center)
Christian Hühne (German Aerospace Center) Martin Schollerer
(German Aerospace Center)
Carbon/PA thermoplastic composites were manufactured using
vacuum assisted pultrusion. The
effect of preheating methods,
preheating temperatures, and
vacuum level on the void content
was studied.
TUE-2_STG_5.09-22
MANUFACTURING OF BICOMPONENT FIBERS FOR THERMOPLASTIC COMPOSITES: A FEASIBILITY STUDY
Christoph Schneeberger (ETH
Zürich)
Joanna C. H. Wong (ETH Zürich)
Paolo Ermanni (ETH Zürich)
We propose an alternative concept for hybrid intermediate
materials used in high volume
production of thermoplastic composites by dip coating individual
glass filaments with a polymer
sheath in-line with the glass spinning process.
TUE-2_ING_7.02-05
EFFECT OF RECYCLING ON
NATURAL FIBRE POLYPROPYLENE COMPOSITES REGARDING
THE CRYSTALLIZATION BEHAVIOUR AND FIBRE LENGTH
DISTRIBUTION
Amna Ramzy (Clausthal University of Technology)
Ahmed ElSabbagh (Clausthal University of Technology)
Leif Steuernagel (Clausthal University of Technology)
Liquid Crystalline Materials are
evaluated for use in high-temperature fiber reinforced composites. This paper will describe the
properties and processability of
this new range of materals.
TUE-2_ATH_1.01-21
THE EFFECTS OF ULTRAVIOLET
RADIATION (UVR) IN POLYMER-BASED COMPOSITES
UVR could cause serious damages to polymer-based materials.
Mechanical properties of polymer-based composites under UVR
exposure are studied. A ZnO filled
HGF layer is introduced on FRPs
for UVR protection and enhance
the surface strength.
Sisal fibre reinforced polypropylene composite is multistep processed and thermal, mechanical
and rheological properties are
detected and correlated to the fibre‘s shape and their distribution.
TUE-2_AUG_4.01-10
LOCAL DEFECT RESONANCE
FOR EFFICIENT DEFECT DETECTION IN COMPOSITES
TUE-2_ING_7.02-06
EFFECT OF THE SAMPLE
GRANULOMETRY ON THE HYDROLYSIS OF CARBON FIBRE
REINFORCED EPOXY (CFRE)
IN HIGH TEMPERATURE AND
HIGH PRESSURE WATER
TUE-2_ATH_1.01-22
VALIDATION AND INDUSTRIAL IMPLEMENTATION OF
AN ANALYSIS METHOD FOR
PREDICTING DISTORTIONS
INDUCED BY COMPOSITE CURING PROCESS
Gidéon Simenou Jambong (Laboratoire de Thermocinétique de
Nantes)
Eric Le Gal La Salle (ICAM Nantes)
Jean-Luc Bailleul (Laboratoire
de Thermocinétique de Nantes)
Jérôme Bellettre (Laboratoire de
Thermocinétique de Nantes)
Daniel Hartung (Premium Aerotec GmbH)
Matthias Hartmann (Technical
University of Munich / Institute
for Carbon Composites)
Via the concept of local defect
resonance it is possible to efficiently and selectively activate
defects in composite materials,
e.g. delaminations. Thermography
and shearography are used for
fast defect detection with vibration excitation.
This investigation was undertaken in order to collect information
about the effect of the granulometry on the degradation of the
resin, during the high temperature and high pressure hydrolysis
of CFRE.
11:50
Tsz-ting Wong (Hong Kong Polytechnic University)
Kin-tak Lau (Hong Kong Polytechnic University)
Julie Etches (University of Bristol)
The focus of this work is the high
resolution digital image correlation strain measurement of adhesively bonded joints. Especially in
scarf repaired coupons and crack
lap shear specimens the strain
distribution along the bondline is
highly uneven.
Markus Rahammer (Institut für
Kunststofftechnik)
Igor Soldov (Institut für Kunststofftechnik)
Nikolai Glunizkij (Institut für
Kunststofftechnik)
Marc Kreutzbruck (University of
Stuttgart)
11:30
12:10
The paper summarised the experimental material characterisation
and development of a simulation
of curing induced distortion for
composite airframe structures.
The simulation is validated with
distortion measurements with serially produced frames.
45
Munich (MUC)
TUE-2_MUC_3.01-23
MULTI-SCALE SIMULATIONS
OF LARGE SCALE FIBER
BRIDGING IN MODE I INTRA-PLY FRACTURE.
12:30
Luis Pablo Canal Casado (Ecole
Polytechnique Fédérale de Lausanne)
Georgios Pappas (EPFL)
John Botsis (Ecole Polytechnique
Fédérale de Lausanne)
TUE-2_SEV_3.03-12
IDENTIFYING FAILURE INITIATION IN AUTOMOTIVE STRUCTURES MADE OF NCF REINFORCED COMPOSITES FOR
HOT SPOT ANALYSIS
Henrik Molker (Volvo Car Corporation)
Renaud Gutkin (Imperial College
London)
Silvestre Pinho (Imperial College
London)
Leif Asp (Chalmers University of
Technology)
Venice (VEN)
TUE-2_VEN_3.06-24
VIRTUAL DESIGN OF TEXTILE
COMPOSITES STARTS ON A
FILAMENT LEVEL
Oliver Döbrich (Technical University of Dresden)
Thomas Gereke (Technical University of Dresden)
Chokri Cherif (Technical University of Dresden)
The paper introduces possibilites
of virtual composite design on a
micro-scale level.
Identification of hot spots in shell
model structure with orthotropic
composite materials using state
of the art 3D failure criteria. The
full 3D stress state is evaluated
from shell element results, based
on stress equillibrium.
Budapest (BUD)
Stockholm (STO)
TUE-2_BUD_3.05-07
TWO-SCALE DAMAGE MODELLING OF A FIBRE REINFORCED
COMPOSITE BASED ON X-RAY
COMPUTED TOMOGRAPHY
DATA
TUE-2_STO_3.14-04
EXPLORING THE TENSILE RESPONSE IN SMALL CARBON FIBRE COMPOSITE BUNDLES
Ilya Straumit (KU Leuven)
Stepan Lomov (KU Leuven)
Martine Wevers (KU Leuven)
A two-scale progressive damage
model is constructed, aimed at
taking into account stochastic fibre failure, formation of clusters
of fibre breaks, and the variability
in the local fibre volume fraction
as estimated from micro-CT data.
David Anthony (Imperial College
London)
Gaël Grail (Imperial College
London)
Alexander Bismarck (University
of Vienna)
Milo Shaffer (Imperial College
London)
Paul Robinson (Imperial College
London)
Soraia Pimenta (Imperial College
London)
Small AS4-carbon fibre-epoxy
composite bundles with a restricted number of fibres, ca. 20,
showed an average strength 6.5%
higher than in standard lab-scale
composite specimens using the
same fibre type, with progressive
failure in tension.
Biarritz (BIA)
TUE-2_BIA_3.11-24
TESTING OF CFRP AT HIGH
STRAIN RATES WITH THE
SPLIT HOPKINSON TENSION
BAR - EVALUATION OF TESTING QUALITY
Hanna Paul (Fraunhofer EMI)
Noah Ledford (Fraunhofer EMI)
Richard Mohrmann (Fraunhofer EMI)
Michael May (Fraunhofer EMI)
Split Hopkinson Tension Bars
are used to test materials at high
strain rates under tensile loading.
An alternative mounting concept
is presented. The quality of the
test results is evaluated using
FEM Simulations and comparing
real test results.
TUESDAY
TUE-2
An embedded cell simulation
approach is used to study the
toughening due to bridging in a
unidirectionally reinforced carbon/epoxy composite in mode I
intralaminar fracture.
Seville (SEV)
12:50
Rhodes (RHO)
Bruges (BRU)
TUE-2_BRU_2.09-04
SYNTHESIZING CONDITIONS
AND STRUCTURAL-PHASE
STATE OF TI-NB ALLOY WHEN
SELECTIVE LASER MELTING
Alexander Saprykin (National
Research Tomsk Polytechnic University) Yu. P. Sharkeev (Institute
of Strength Physics and Material Science of Siberian Branch
Russian Academy of Sciences)
E. A. Ibragimov (Yurga Institute
of Technology) E. V. Babakova
(Yurga Institute of Technology)
Zhanna G. Kovalevskaya (Institute
of Strength Physics and Material
Science of Siberian Branch Russian Academy of Sciences) A. Yu.
Eroshenko (Institute of Strength
Physics and Material Science of
Siberian Branch Russian Academy
of Sciences) Margarita Khimich
(Institute of Strength Physics
and Material Science of Siberian Branch Russian Academy of
Sciences) P. V. Uvarkin (Institute
of Strength Physics and Material Science of Siberian Branch
Russian Academy of Sciences) I.
A. Gluhov (Institute of Strength
Physics and Material Science of
Siberian Branch Russian Academy
of Sciences)
A searching experiment aimed at
identifying appropriate process
conditions to form single tracks
of titanium and niobium composite powder is reported to be
carried out by an SLM experimental facility.
TUE-2_MUC_3.01-24
ON THE INTER-FIBRE FAILURE
IN FIBRE REINFORCED COMPOSITES
Paolo Andrea Carraro (University
of Padova)
Marino Quaresimin (University
of Padova)
Michele Zappalorto (University
of Padova)
The competing mechanisms of
debonding and matrix failure
are treated with an analytical
approach. It is shown that there
exists a value of the fibre radius
which discerns between a matrix and interface driven damage
initiation.
TUE-2_SEV_3.03-13
INTERLAMINAR STRESSES
AND EDGE EFFECTS IN QUASI-ISOTROPIC LAMINATES
SUBJECT TO TENSILE LOADS
Faustino Mujika (University of the
Basque Country)
Jesús M. Romera (University of
the Basque Country)
Interlaminar stresses in quasi-isotropic symmetric laminates subject to tension are analyzed analytically and checked numerically.
TUE-2_VEN_3.06-25
WARP AND WEFT DIRECTION
DAMAGE DEVELOPMENT IN
THE LATE-STAGE FATIGUE LIFE
OF A 3D NON-CRIMP ORTHOGONAL WEAVE COMPOSITE
Matthew Poole (University of
Surrey)
Stephen Ogin (University of
Surrey)
Paul Smith (University of Surrey)
Garry Wells (Defence Science and
Technology Laboratory (DSTL))
Prasad Potluri (University of Manchester)
Philip J. Withers (University of
Manchester)
This paper presents the damage
development throughout the lifetime of a five layer 3D non-crimp
orthogonal woven composite fatigue loaded along the warp and
weft directions.
TUE-2_BUD_3.05-08
DEFINITION OF PERIODIC
BOUNDARY CONDITIONS IN
EXPLICIT DYNAMIC SIMULATIONS OF MICRO- OR MESO-SCALE UNIT CELLS WITH
CONFORMAL AND NON-CONFORMAL MESHES
David Garoz Gomez (Ghent University)
Francisco A. Gilabert (Ghent University)
Ruben Sevenois (Ghent University)
Siebe Spronk (Ghent University)
Ali Rezaei (Ghent University)
Wim Van Paepegem (Ghent University)
TUE-2_STO_3.14-05
HIERARCHICAL BRICK-ANDMORTAR COMPOSITES FOR
DAMAGE TOLERANCE AND
PROGRESSIVE FAILURE
TUE-2_BIA_3.11-25
THE ROAD MAP FROM FRACTURE TOUGHNESS TO RESIDUAL STRENGTH OF AIRCRAFT
HIGH GRADE CFRPS
Soraia Pimenta (Imperial College
London)
Joel Henry (Imperial College
London)
Spyridon Psarras (Imperial College London)
Lorenzo Iannucci (Imperial College London)
Michel Fouinneteau (Airbus Operations)
Bio-inspired discontinuous microstructures – with staggered
‘bricks of bricks’ embedded in a
matrix – are designed by FE, leading to composites with a non-linear response, delaying damage localisation, and promoting energy
dissipation before failure.
Different formulations and implementations of Periodic Boundary
Conditions (PBCs) have been
studied under dynamic load using
an explicit finite element solver.
This work indicates in which micro/meso unit cells the PBCs must
be carefully applied.
13:10
This paper presents the road map
from obtaining the fracture toughness of aircraft high grade CFRPs
up to predicting the damage size
after LVI and CAI failure load.
Finally, the predictions were compared with experimental results.
TUE-2_BRU_2.09-05
TUNGSTEN FIBRE-REINFORCED TUNGSTEN COMPOSITE – DEVELOPMENT OF
A NEW HIGH PERFORMANCE
MATERIAL
Johann Riesch (Max-Planck-Institut für Plasmaphysik)
Jan W. Coenen (Forschungszentrum Jülich GmbH)
Hanns Gietl (Max-Planck-Institut
für Plasmaphysik)
Till Höschen (Max-Planck-Institut
für Plasmaphysik)
Yiran Mao (Forschungszentrum
Jülich GmbH) Christian Linsmeier
(Forschungszentrum Jülich GmbH)
Rudolf Neu (Max-Planck-Institut
für Plasmaphysik)
Overview of the development,
manufacturing and characteristics of tungsten fibre-reinforced
composites anticipated for the
use in a future fusion reactor and
possibly in other highly loaded
structures.
Lunch Break
14:10
Keynote lecture 5 (MUC) by Pedro Camanho, University of Porto, Portugal:
ANALYSIS MODELS FOR POLYMER COMPOSITES ACROSS DIFFERENT LENGTH SCALES
Keynote lecture 6 (BIA) by Markus G. R. Sause, University of Augsburg, Germany:
ADVANCES IN IN-SITU MONITORING OF FIBER REINFORCED COMPOSITES
15:00
Poster Session 1
46
Brighton (BRI)
Naples (NAP)
TUE-2_BRI_2.08-04
PREDICTION OF MECHANICAL
PROPERTIES OF HYBRID DISCONTINUOUS COMPOSITES
TUE-2_NAP_2.06-24
THERMAL CONDUCTIVITY
AND PROCESSABILITY OF
POLYMER COMPOSITES WITH
NANO- AND MICRO-FUSIBLE
FILLERS
Joel Henry (Imperial College
London)
Soraia Pimenta (Imperial College
London)
HaNa Yu (University of Bristol)
Marco Luigi Longana (University
of Bristol)
A non-linear stress-strain response is predicted with an analytical model coupling shear-lag
of the matrix with fibre strength
variability. The model was validated experimentally, and captures hybrid effects in the material’s stiffness and strength.
TUE-2_BRI_2.08-05
REPEATED LOW ENERGY IMPACT BEHAVIOUR OF SELF-REINFORCED POLYPROPYLENE
FIBRE METAL LAMINATES
Laurentzi Aretxabaleta (Mondragon Unibertsitatea)
Joseba Iñaki Múgica (Mondragon
Unibertsitatea)
Modesto Mateos (Mondragon
Unibertsitatea)
Jon Aurrekoetxea (Mondragon
Unibertsitatea)
In this study the impact-fatigue
behaviour of a polypropylene
SRFML has been characterized
by drop weight impact tests at
impact energies of 20, 15, 13, 10
and 8J. The main dissipation damage mechanisms of the material
have been identified.
Kazuaki Sanada (Toyama Prefectural University)
Ryouta Takeuchi (Toyama Prefectural University)
Satoru Kamon (Toyama Prefectural University)
The composites with the nanoand micro-fusible fillers were
fabricated and the potential of
nano- and micro-fusible fillers to
increase the thermal conductivity
and decrease the viscosity of the
composites was investigated.
TUE-2_NAP_2.06-25
TOUGHENING AND MECHANICAL PROPERTIES OF EPOXY MODIFIED WITH BLOCK
CO-POLYMERS AND TITANIUM
DIOXIDE NANOPARTICLES
Ankur Bajpai (Institute for Composite Materials)
Bernd Wetzel (Institute for Composite Materials)
This work focus to overcome the
disadvantage of epoxy thermosets
i.e. brittleness, and to systematically develop and understand
novel polymeric nano composites
which include block copolymers
with tailored morphology to generate high toughness.
London (LON)
TUE-2_LON_5.06-16
INTIMATE CONTACT DEVELOPMENT IN LASER ASSISTED
FIBER PLACEMENT
Thijs Kok (TPRC)
Wouter Grouve (TPRC)
Laurent Warnet (University of
Twente)
Remko Akkerman (University of
Twente)
Experimental research on the intimate contact development during
the laser assisted fiber placement
process. The results suggest that
the thermoplastic composite tape
deconsolidates during the process, which might significantly
affect the intimate contact development.
Bordeaux (BOR)
Stuttgart (STG)
TUE-2_BOR_5.14-07
ASSESSING FIBRE KINEMATICS IN DILUTE FIBRE SUSPENSIONS WITH NON-NEWTONIAN SUSPENDING FLUIDS
USING FAST X-RAY TOMOGRAPHY AND 3D FINITE ELEMENT
SIMULATIONS
TUE-2_STG_5.09-23
NEW PRODUCTION PROCESS
FOR MANUFACTURING CONTINUOUS FIBER-REINFORCED
THERMOPLASTIC HOLLOW
PROFILE COMPONENTS
Tanguy Laurencin (Laboratoire 3SR)
Laurent Orgéas (CNRS)
Pierre Dumont (INSA de Lyon)
Patrice Laure (CNRS)
Sabine Rolland du Roscoat
(CNRS)
L. Silva (CNRS)
Steven Le Corre (University of
Nantes)
M. Terrien (CNRS)
We conducted 3D in situ compression experiments using model
non-Newtonian fibre suspensions
that were imaged by fast X-ray
microtomography. In parallel,
these experiments were numerically simulated with an Eulerian
multi-domain FE code.
TUE-2_LON_5.06-17
SELECTIVE REINFORCEMENT
OF STEEL WITH CF/PA-6 COMPOSITES IN A LASER TAPE
PLACEMENT PROCESS: EFFECT
OF SURFACE PREPARATION
AND LASER ANGLE ON INTERFACIAL BOND STRENGTH
Clemens Stefanziosa (BMW
Group)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
Elisabeth Ladstätter (Technical
University of Munich / Institute
for Carbon Composites)
T. Zimmermann (Technical University of Munich / Institute for
Carbon Composites)
This article is to present a newly
developed discontinuous production process – that is subdivided
into five main steps – for continuous fiber-reinforced thermoplastic hollow profiles based on a
continuously produced semi-finished product.
Augsburg (AUG)
TUE-2_AUG_4.01-11
MICRO-SCALE STRAIN MAPPING IN NANO-ENGINEERED
FIBER-REINFORCED COMPOSITES
Mahoor Mehdikhani (KU Leuven)
Anna Matveeva (KU Leuven)
Mohammadali Aravand (KU
Leuven)
Brian Wardle (Massachusetts Institute of Technology)
Stepan Lomov (KU Leuven)
Larissa Gorbatikh (KU Leuven)
The application of digital image
correlation at the micro-scale to
nano-engineered fiber-reinforced
composites is investigated. The
resulting strain maps are compared with a finite element model, simulating CNTs grown radially
on microfibers.
Ingolstadt (ING)
Athens (ATH)
TUE-2_ING_7.02-07
EFFECTS OF AUTOMATED
PATCH PLACEMENT ON THE
MECHANICAL PERFORMANCE
OF REFORMED NCF CARBON
FIBRE
12:30
Jamie Snudden (University of
Bristol)
Bernhard Horn (Technical University of Munich)
Carwyn Ward (University of
Bristol)
Kevin Potter (University of
Bristol)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
A novel approach to reforming
in-process scrap into an aligned
material with a grid of discontinuities using the Fibre Patch Placement Process which had been
modified. The reformed material
was tested in flexure showing a
low drop in performance.
TUE-2_STG_5.09-24
ON LINE AND IN-SITU CONSOLIDATION OF THERMOPLASTIC
12:50
Riccardo Dell‘Anna (University
of Salento)
Francesca Lionetto (University
of Salento)
Francesco Montagna (University
of Salento)
Alfonso Maffezzoli (University
of Salento)
Christopher Stokes-Griffin (The
Australian National University)
Stefan Ehard (Technical University of Munich/Institute for Carbon
Composites)
Andreas Kollmannsberger (Technical University of Munich)
Paul Compston (Australian National University) Klaus Drechsler
(Technical University of Munich/
Institute for Carbon Composites)
High power ultrasound was used
in order to mould thermoplastic
composites in a process including
the simultaneous fibers impregnation and plies consolidation.
This paper investigates how to
achieve good bonding between
CF/PA6 composite tapes and steel
substrates in an automated tape
placement process using a high
power near infra-red laser as a
heat source.
13:10
Lunch Break
14:10
Keynote lecture 7 (NAP) by Leif Asp, Chalmers University of Technology, Sweden:
NEXT GENERATION MULTIFUNCTIONAL COMPOSITES
Keynote lecture 8 (STG) by Peter Mitschang, Universität Kaiserslautern and Institut für Verbundwerkstoffe GmbH, Germany:
INDUCTION WELDING - A FLEXIBLE TECHNOLOGY FOR VARIOUS APPLICATIONS
15:00
Poster Session 1
47
Munich (MUC)
15:00
Stockholm (STO)
Biarritz (BIA)
Rhodes (RHO)
Bruges (BRU)
3.18 Hybrid Materials and Structures (1/4)
3.05 Multiscale Modeling (3/5)
3.14 Novel Composite Microstructures: Design and/or Prototyping (2/2)
3.12 Dynamik Loading - Vibration
and Damping (1/1)
2.14 Foams, Cellular and Lattice
Materials (1/2)
TUE-3_MUC_3.01-25
PROGRESSIVE FAILURE
ANALYSIS OF STATIC COMPRESSION OF FILLED-HOLE
STRUCTURE BASED ON THE
MICRO-MECHANICS OF FAILURE
TUE-3_SEV_3.03-14
INTRA-LAMINAR PROGRESSIVE DAMAGE OF GENERAL
CONFIGURATION LAMINATED
COMPOSITES
TUE-3_VEN_3.18-01
ANALYSIS OF MSD CRACK
GROWTH IN MECHANICALLY
FASTENED FIBRE METAL LAMINATE JOINTS
TUE-3_BUD_3.05-09
DEVELOPMENT OF A SENSITIVITY-BASED DESIGN METHODOLOGY FOR COMPOSITE
STRUCTURES
TUE-3_STO_3.14-06
ON THE EFFECT OF FIBRE
SHAPE IN FIBRE REINFORCED
POLYMERS: STRENGTH AND
TOUGHNESS
TUE-3_BRU_2.14-01
ASSEMBLED 3D PERIODIC
AUXETIC CELLULAR STRUCTURE AND ITS MECHANICAL
PROPERTIES
Adi Adumitroaie (Johannes Kepler
University Linz)
Ever Barbero (West Virginia University)
Martin Schagerl (Johannes Kepler
University Linz)
Wandong Wang (Delft University
of Technology)
Calvin Rans (Delft University of
Technology)
Zhinan Zhang (First Aircraft
Design and Research Institute
of AVIC)
Rinze Benedictus (Delft University of Technology)
Ernesto Rodriguez Pila (I2M - Arts
et Métiers ParisTech)
Claire Guillebaud (I2M - Arts et
Métiers ParisTech)
Hervé Wargnier (I2M - Arts et
Métiers ParisTech)
Miguel Herraez (IMDEA Materials)
Carlos González (Polytechnic University of Madrid & IMDEA Materials Institute)
Claudio Lopes (IMDEA Materials
Institute)
Roberto Guzman de Villoria (IMDEA Materials Institute)
Javier Llorca (Polytechnic University of Madrid & IMDEA Materials
Institute)
T. Varela (Airbus Operations)
J. Sánchez (Airbus Operations)
TUE-3_BIA_3.12-01
CHARACTERIZATION OF FIBRE-DIRECTION DEPENDENT
DAMPING OF GLASS-FIBRE
COMPOSITES AT LOW TEMPERATURES AND LOW FREQUENCIES
TUE-3_MUC_3.01-26
PROPAGATION OF A TRANSVERSE CRACK INSIDE THE
INTERLEAF OF A CROSS-PLY
LAMINATE
Valentin Priasso (Airbus Group
Innovations)
Jacques Lamon (CNRS)
Pierre Ladevèze (ENS Cachan)
Cuong Ha-Minh (Université Paris-Saclay)
Caroline Petiot (Airbus Group Innovations)
This study focuses on the propagation of a transverse crack, for
a cross-ply laminate, inside the
interleaf reinforced by thermoplastic particles. Trends in crack
propagation were anticipated depending on main properties of the
matrix and particles.
TUE-3_MUC_3.01-27
STRESS REDISTRIBUTION
AROUND BROKEN FIBRES AND
STRENGTH OF FIBRE BUNDLES
Luc St-Pierre (Imperial College
London)
Silvestre Pinho (Imperial College
London)
Analytical and FE methods were
used to analyse how stress redistribution varies with the number
of broken fibres in a cluster. A
FE model to predict the survival
probability of microcomposites
is also presented and validated
against experiments.
48
Budapest (BUD)
3.03 Fracture and Damage - Laminate Level (4/5)
The static strength of filled-hole
compressive (FHC) structure of
polymer composites using the
theory of micro-mechanics of failure (MMF) is analyzed.
15:40
Venice (VEN)
3.01 Fracture and Damage - Micromechanics (7/8)
Hongneng Cai (Xi‘an Jiaotong
University)
Fei Jiao (Xi‘an Jiaotong University) Pengfei Yu (Xi’an Jiaotong
University)
Xiaofei Lou (Xi’an Jiaotong University)
15:20
Seville (SEV)
A new analytical model for progressive damage transverse matrix cracking in continuous
fiber reinforced laminates is developed. The increase of fracture
toughness during matrix crack
multiplication (R-curve) is included into the model.
TUE-3_SEV_3.03-15
MODELLING DISCRETE MATRIX CRACKS, SPLITS AND
CRACK-INDUCED DELAMINATION WITH THE FLOATING
NODE METHOD
Bo-Yang Chen (National University of Singapore)
Tong-Earn Tay (National University of Singapore)
Silvestre Pinho (Imperial College
London)
Vincent B.C. Tan (National University of Singapore)
This paper presents the modelling
of matrix cracks, splits and the
crack-induced delamination using
the floating node method.
TUE-3_SEV_3.03-16
NON-LOCALIZED FAILURE CRITERION FOR OPEN-HOLE AND
PINNED JOINT COMPOSITE
STRUCTURE USING CHARACTERISTIC AREA/VOLUME
APPROACH
Arruck Tragangoon (MINES
ParisTech)
Baramee Patamaprohm (MINES
ParisTech)
Jacques Renard (MINES ParisTech)
The method to predict the failure
of composite laminate structure
induced by local stress concentration is proposed. Open-hole and
bolted joint specimens of woven
glass/polyamide6 composite were
investigated in this work.
This paper outlines a prediction
model for analysing MSD crack
growth in mechanically fastened
joints based on linear elastic fracture mechanics and the principle
of superposition.
TUE-3_VEN_3.18-02
CHARACTERISATION OF FIBRE-METAL-LAMINATES UNDER BEARING LOADING
Björn Bosbach (Technische Universität Hamburg-Harburg)
Hauke Meeuw (Technische Universität Hamburg-Harburg)
Bodo Fiedler (Technische Universität Hamburg-Harburg)
The hybrid composites with solid
and perforated metal sheets are
manufactured by Vacuum-Assisted-Resin-Transfer-Moulding.
Resulting in high quality composites with enhanced load bearing
capability.
TUE-3_VEN_3.18-03
DESIGNING A METAL-CFRP-HYBRID BY USING
A STRUCTURED POLYMERIC COMPONENT ON THE INTERFACE
Martin Pohl (Technical University
of Dresden)
Markus Stommel (Technical University of Dortmund)
This contribution is about the
development of a hybrid metal-CFRP-structure that uses a
thermoplastic polymer to form a
mechanical interlocking on the
interface.
The aim of the methodology is to
lead the choice of the designer
optimizing the cost of development and the level of confidence.
This study deals with a sensibility
analysis and an uncertainty study
to identify the most relevant parameters of models.
TUE-3_BUD_3.05-10
EFFECTIVE PROPERTIES OF
DISSIPATIVE COMPOSITES
UNDER FULLY COUPLED THERMOMECHANICAL PROCESSES
George Chatzigeorgiou (Arts et
Métiers ParisTech)
Nicolas Charalambakis (Aristotle
University of Thessaloniki)
Yves Chemisky (Arts et Métiers
ParisTech)
Fodil Meraghni (Arts et Métiers
ParisTech)
The current work deals with periodic composite media undergoing
fully coupled thermomechanical
loading. In these composites the
material constituents are considered to obey the generalized standard materials laws.
TUE-3_BUD_3.05-11
HOMOGENIZATION OF TEMPERATURE-DEPENDENT SHORT
FIBER REINFORCED POLYPROPYLEN AND EXPERIMENTAL
INVESTIGATIONS OF LONG FIBER REINFORCED VINYLESTER
Loredana Kehrer (Karlsruhe Institute of Technology)
Pascal Pinter (Karlsruhe Institute
of Technology)
Thomas Böhlke (Karlsruhe Institute of Technology)
Using µCT data, effective material
properties are calculated by the
self-consistent, the interaction
direct derivative and the Hashin-Shtrikman two-step method.
Material properties of short and
long fiber reinforced polymers are
determined by DMA.
Computational micromechanics
applied to evaluate the effect of
fibre shape on the transverse tension and compression properties
of unidirectional composites.
TUE-3_STO_3.14-07
MODELLING, PROTOTYPING
AND TESTING NACRE-INSPIRED MICROSTRUCTURES
FOR IMPROVED DAMAGE TOLERANCE
Federico Narducci (Imperial College London)
Silvestre Pinho (Imperial College
London)
This paper presents the design
of a novel CFRP composite with
nacre-inspired microstructure.
Analytical models are developed
to predict the behaviour of such
composite, and used to identify
the optimal parameters for the
subsequent experiments.
TUE-3_STO_3.14-08
HIGH-TOUGHNESS CFRP LAMINATES WITH ENGINEERED
FRACTURE SURFACES: A
SHARK-TEETH DESIGN
Silvestre Pinho (Imperial College
London)
Gianmaria Bullegas (Imperial College London)
Soraia Pimenta (Imperial College
London)
Carefully placed patterns of micro-cuts have been designed
and then used to increase the
translaminar work of fracture in
thin-ply composite laminates.
These led to a 68% increase in
notched strength and 460% increase in work of fracture.
Mathias Kliem (DTU Wind Energy
(Section of Composites and Materials Mechanics)
Jan Høgsberg (Technical University of Denmark)
Martin Dannemann (Technical
University of Dresden)
The paper presents the damping
properties of Glass-fiber reinforced Epoxy and Glass-fiber reinforced Vinyl-ester at low temperatures and low frequencies.
TUE-3_BIA_3.12-02
CHARACTERIZATION OF DYNAMIC FORCES IN ORTHOGONAL CUTTING OF CFRPS
Li Ma (Harbin Institute of Technology)
An interlocking assembly manufacture method for 3D periodic
auxetic cellular structures was
introduced. The method has the
potential for mass production and
automatic manufacturing. Auxetic
performance of proposed structures is investigated theoretically
and numerically.
TUE-3_BRU_2.14-02
CYCLIC OLEFIN COPOLYMER/
EXFOLIATED GRAPHITE NANOPLATELETS NANOCOMPOSITES
FOAMED THROUGH SUPERCRITICAL CARBON DIOXIDE
Bin Niu (Dalian University of
Technology)
Fuji Wang (Dalian University of
Technology)
Rui Yang (Dalian University of
Technology)
Shiyong Sun (Dalian University of
Technology)
Andrea Dorigato (University of
Trento)
Andrea Biani (University of
Trento)
Alessandro Pegoretti (University
of Trento)
This work deals with the characterization of the dynamic cutting
forces and the chip formation in
the orthogonal cutting of CFRP.
The time series of the dynamic
cutting forces are acquired by a
force sensor.
Cyclic olefin copolymer (COC)
nanocomposites filled with exfoliated graphite nanoplatelets
(xGnP) and foamed through supercritical carbon dioxide at different pressure levels were prepared and characterized.
TUE-3_BIA_3.12-03
DAMPING OF CARBON FIBRE
AND FLAX FIBRE REINFORCED
ANGLE PLY POLYMERS
TUE-3_BRU_2.14-03
DESIGN AND OPTIMIZATION
OF LAYERED COMPOSITE
FOAM LINERS FOR PROTECTIVE HELMETS
Marvin Rueppel (University of
Applied Sciences and Arts Northwestern Switzerland)
J. Rion (Bcomp AG)
Clemens Dransfeld (University of
Applied Sciences and Arts Northwestern Switzerland)
Kunal Masania (ETH Zürich)
We mathematically relate the dynamic properties of carbon and
flax fibre angle ply laminates at
various angles. The resulting elastic modulus and specific damping
capacity are measured using dynamic mechanical analysis and vibration beam measurements.
Yasmine Mosleh (KU Leuven)
Bart Depreitere (KU Leuven)
Jos Vander Sloten (KU Leuven)
Jan Ivens (KU Leuven)
In this study, different configurations of layered composite foam
liners for a protective helmet
were studied.In addistion, the
effect of using different materials
as a helmet shell on the performance of a helmet in linear impact has been studied.
Brighton (BRI)
Naples (NAP)
London (LON)
Bordeaux (BOR)
Stuttgart (STG)
Augsburg (AUG)
Ingolstadt (ING)
Athens (ATH)
2.04 Bio Composites (1/6)
2.06 Nano Composites (7/7)
5.06 Automated Placement Technologies (5/5)
5.12 Online Process Monitoring
and Controling (1/3)
5.09 Manufacturing Processes for
Thermoplastic Composites (7/7)
4.05 Novel Test Methods and
Concepts (1/2)
7.02 Recycling of Fibres and
Composites (3/5)
1.04 Renewable Engergies (1/1)
TUE-3_BRI_2.04-01
ARE FLAX-EPOXY COMPOSITES TOUGH?
TUE-3_NAP_2.06-26
INCREASING THE DAMAGE
RESISTANCE OF COMPOSITES
BY INTERLEAVING THEM WITH
ELECTROSPUN NANOFIBROUS
VEILS
TUE-3_LON_5.06-18
STAXX COMPACT 1700 – LOW
SCRAP FOR HIGH VOLUME
COMPONENT PARTS PRODUCTION
TUE-3_BOR_5.12-01
A MODEL-BASED CONCEPT
FOR AN OPTIMIZED RESIN
TRANSFER MOULDING PROCESS
Matthias Meyer (BA Composites
GmbH)
Patrick Hergan (Montanuniversitaet Leoben)
Ewald Fauster (Montanuniversitaet Leoben)
Ralf Schledjewski (Montanuniversitaet Leoben)
TUE-3_STG_5.09-25
PROCESSING AND PROPERTIES OF FULL-THERMOPLASTIC SANDWICH STRUCTURES
FOR APPLICATION IN AIRCRAFT INTERIORS
TUE-3_AUG_4.05-01
BROADBAND DIELECTRIC
SPECTROSCOPY OF DIELECTRIC-CONDUCTOR COMPOSITES: CHARACTERIZATION OF
PHYSICAL PROPERTIES AND
APPLICATION POTENTIAL
TUE-3_ING_7.02-08
EXPLORING THE FLEXURAL
AND ADHESION BEHAVIOR
OF COMPOSITE SANDWICH
PANELS MADE OF RECYCLED
FOAMED POLYPROPYLENE
CORE AND GLASS/PP SKINS
TUE-3_ATH_1.04-01
EXPERIMENTAL AND SIMULATED DEFECT DETECTION IN FIBRE REINFORCED COMPOSITE
MATERIALS USING THE MICROWAVE NON-DESTRUCTIVE
EVALUATION TECHNIQUE
Viktor Bovtun (Czech Academy of
Sciences) Jan Petzelt (Institute of
Physics AS CR) Dmitry Nuzhnyy
(Institute of Physics AS CR)
Martin Kempa (Institute of Physics AS CR) Maxim Savinov (Institute of Physics AS CR)
Mohammadreza Azad (Concordia
University)
Mehdi Hojjati (Concordia University)
Hossein Borazghi (AS Composite)
Michael Gower (NPL)
Maria Lodeiro (NPL)
Richard Shaw (NPL)
Andrew Gregory (NPL)
Rolf Judaschke (Physikalisch-Technische Bundesanstalt (PTB))
Farida Bensadoun (KU Leuven)
Ignaas Verpoest (KU Leuven)
Aart Van Vuure (KU Leuven)
This study was to determine the
influence of fibre architectures
on the interlaminar fracture
toughness of flax fibre epoxy
composites.
Lode Daelemans (Ghent University) Sam van der Heijden (Ghent
University) Ives De Baere (UGent,
Department of Materials Science
and Engineering) Hubert Rahier
(Free University Brussels) Wim
Van Paepegem (Ghent University) Karen De Clerck (Ghent University)
STAXX will decrease the risk for
the part manufacturer as it builds
up upon well established technology and with regard on invests
and production cost it is cost efficient due to being a stand alone
production system.
Interleaving composites with
electrospun nanofibrous veils is
proving to be a viable technique
in order to increase the delamination resistance. We provide a
thorough insight into the mechanisms that result in a toughened
response.
TUE-3_BRI_2.04-02
ASSESSING THE FEASIBILITY
OF NATURAL COMPOSITE FOR
STRUCTURAL APPLICATIONS
Jeanne Blanchard (University of
Southampton)
Adam Sobey (University of Southampton)
James Blake (University of Southampton)
A reliability assessment of a glass
fibre composite grillage and the
equivalent structure made of flax
fibre reinforced composite was
performed to investigate the applicability of natural composites
to structural applications.
TUE-3_NAP_2.06-27
USE OF CARBON NANOTUBES
IN STRUCTURAL COMPOSITES
Nadir Kchit (Nanocyl)
Michael Claes (Nanocyl)
Thermoplastics carrier doped
carbon nanotubes are used as
additives in CFRP with the aim
to improve a damage tolerance
and electrical conductivity. Two
approaches have been proposed;
CNT-doped TP converted in veil
film and CNT-doped TP in fine
powder.
TUE-3_LON_5.06-19
TIME DEPENDENCE OF MULTIPLY FORMING OVER DOUBLY
CURVED SHAPES
Michael Elkington (University
of Bristol)
Carwyn Ward (University of
Bristol)
An investigation into whether wrinkling during forming of
pre-consolidated laminates can
be reduced by dramatically lowering the forming rate.
A concept of optimizing the resin transfer moulding process
by using model modules will
be presented. Therefore basic
models which describe he major
sub-domains of the process will
be shown.
TUE-3_BOR_5.12-02
ANALYSES AND VALIDATION
TESTING OF A PIEZO SENSOR
BASED PROCESS MONITORING SYSTEM AS INTEGRAL
PART OF AN INTEGRATED
PROCESS AND STRUCTURAL
HEALTH MONITORING SYSTEM
FOR CFRP REINFORCEMENTS
MADE BY RTM
Michael Scheerer (Aerospace &
Advanced Composites GmbH)
Zoltan Simon (Aerospace & Advanced Composites GmbH) Michael Marischler (Aerospace &
Advanced Composites GmbH)
Tim Roser (Airbus Helicopters)
Bernhard Rittenschober (ALPEX
Technologies GmbH)
Within this paper the authors
present detailed simulation and
experimental results of the process monitoring part of a novel
integrated process and structural
health monitoring system based
on piezo sensors for CFRP reinforcements made by RTM.
TUE-3_BRI_2.04-03
BACTERIAL CELLULOSE AS
REINFORCEMENT FOR NATURAL FIBRE THERMOSET COMPOSITES
Marta Fortea Verdejo (Universität Wien)
Koon-Yang Lee (Imperial College
London)
Alexander Bismarck (University
of Vienna)
Natural fibre composites were
manufactured using flax fibres as
reinforcement and different thermoset polymers as matrix. The effect of introducing bacterial cellulose as additional binder to these
composites was investigated.
TUE-3_NAP_2.06-28
VIBRATIONAL CHARACTERISTICS OF FUNCTIONALLY
GRADED CARBON NANOTUBE-REINFORCED COMPOSITE PLATES UNDER UNCERTAINTY
Saleh Pouresmaeeli (Shiraz University)
S. Ahmad Fazelzadeh (Shiraz
University)
Esmaeal Ghavanloo (Shiraz University)
A. Fereidoon (Semnan University)
The natural frequency of carbon
nanotube-reinforced composite
plate under geometrical and mechanical uncertainty is investigated using the interval analysis
method. The mechanical properties are predicted on the basis of
the modified rule of mixture.
TUE-3_LON_5.06-20
USING REAL-TIME DATA FOR
INCREASING THE EFFICIENCY
OF THE AUTOMATED FIBRE
PLACEMENT PROCESS
Darren Winter (GKN Aerospace)
Dennis Crowley (University of
Bristol)
Stephen Williams (GKN Aerospace)
Carwyn Ward (University of
Bristol)
Our paper addresses the non-value added activities that hinder
a breakthrough AFP process
for airliner wing manufacture,
from ‚new product introduction‘
towards ‚steady state manufacturing‘.
TUE-3_BOR_5.12-03
ASSESSING THE RELIABILITY OF FILLING SIMULATIONS
FOR RTM: CRITICAL COMPARISON OF THEORETICAL
AND REALISTIC PERMEABILITY OF TYPICAL CURVATURES
ENCOUNTERED IN RTM PREFORMS
Spiridon Konstantopoulos (Montanuniversitaet Leoben)
Ralf Schledjewski (Montanuniversitaet Leoben)
Permeability of curvatures found
in RTM is analyzed using flow
sensors. A model is developed
for interpretation to curvature
permeability and the differences
from in-plane permeability or theoretically expected draped permeability are discussed.
Mathias Muehlbacher (Neue Materialien Bayreuth GmbH)
Thomas Neumeyer (Neue Materialien Bayreuth GmbH)
Volker Altstädt (University of
Bayreuth)
In this study an approach for
manufacturing all-thermoplastic
sandwich structures based on fire
resistant thermoplastics for usage
in aircraft interiors is presented.
TUE-3_STG_5.09-26
RESISTANCE WELDING OF
CARBON FIBER REINFORCED
THERMOPLASTIC COMPOSITES USING SPREAD CARBON
FIBER HEATING ELEMENT
Daiki Tanabe (Osaka University)
Fumio Kubohori (Kindai University)
Kazuaki Nishiyabu (Kindai University)
Tetsusei Kurashiki (Osaka University)
The effects of processing conditions such as applied voltage, current and conducting time on the
fusion behavior of CFRTP composites were investigated to get
the optimum condition for resistance welding using spread carbon fiber heating element.
Broadband dielectric spectra (1
mHz – 1 THz) of dielectric-conductor composites reveal essential information on their conductivity mechanisms, percolation
phenomena, etc. and provide estimation of their potential for electromagnetic applications.
TUE-3_AUG_4.05-02
COMPOSITE TESTING 4.0 – A
NEW APPROACH TOWARDS
QUALITY ASSESSMENT USING
COLLABORATIVE ROBOTICS
AND MULTI SENSOR MEASUREMENT
TUE-3_ING_7.02-09
INVESTIGATION OF THE EFFECT OF HOT WATER AND WATER VAPOUR TREATMENTS
ON THE STRENGTH OF THERMALLY CONDITIONED E-GLASS
FIBRES
Franz Eder (Descam 3D Technologies GmbH)
M. Kling (Automation W+R) Frieder Heieck (University of Stuttgart)
J. Greiner (University of Stuttgart) Andrea Miene (Faserinstitut
Bremen)
C. Cherrier (Automation W+R) R.
Clasen (Automation W+R)
Richard Söhnchen (Descam 3D
Technologies GmbH)
Peter Jenkins (University of
Strathclyde)
Mhari Stafford (University of
Strathclyde)
James Thomason (University of
Strathclyde)
Especially in the area of carbon
composites, an increasing demand for a fast and easy to use
quality inspection systems is
obvious. We here present an unobstructed combination of collaborative robots with optical testing
methods for CFRP parts.
TUE-3_STG_5.09-27
THERMOPLASTIC UNIDIRECTIONAL TAPES – AN APPROPRIATE ALTERNATIVE TO WOVEN FABRIC BASED ORGANIC
SHEETS
TUE-3_AUG_4.05-03
COMBINING WAVE AND SPECTROSCOPIC TECHNIQUES TO
MONITOR THE DEVELOPMENT
OF THERMOSETS DURING
CURE
Michael Kropka (Neue Materialien
Bayreuth GmbH)
Mathias Muehlbacher (Neue Materialien Bayreuth GmbH)
Volker Altstädt (University of
Bayreuth)
John Puentes (University of Wisconsin-Madison)
Lorenz Wruck (University of Wisconsin-Madison) Alexander Chaloupka (Fraunhofer ICT) Natalie
Rudolph (University of Wisconsin-Madison) Tim Osswald (University of Wisconsin-Madison)
In this study, the mechanical
properties of glass fiber reinforced organic sheets and UDtape lay-ups were investigated
and compared at different temperatures.
The effect of using a solid-surface
polymer foam as the core material on the mechanical and physical
properties of composite sandwich
panels was investigated and results were compared with a typical PP honeycomb sandwich panel with the same thickness.
This work presents the first attempt to use ultrasonic sensors
and a Raman spectrometer in
a single testing set-up. The aim
is to evaluate methods to infer
thermo-chemical and mechanical
properties of thermosets in one
experiment.
An investigation of possible
strength recovery methods using
hot water or water vapour was
carried out on E-glass fibres. A
strength increase of previously
thermally conditioned fibres of up
to 130 % was achieved.
TUE-3_ING_7.02-10
KINETIC OF THE HYDROLYSIS
OF THREE DIFFERENT CARBON
FIBRE REINFORCED EPOXY
(CFRE) IN HIGH TEMPERATURE AND HIGH PRESSURE
WATER
Gidéon Simenou Jambong (Laboratoire de Thermocinétique de
Nantes)
Eric Le Gal La Salle (ICAM Nantes)
Jean-Luc Bailleul (Laboratoire
de Thermocinétique de Nantes)
Jérôme Bellettre (Laboratoire de
Thermocinétique de Nantes)
In this work, the kinetics of the
resin degradation during the hydrolysis of three different CFRE
were investigated. A kinetic model found in the literature was used
to determine the global kinetics
parameters.
15:00
An experimental and theoretical
study into microwave non-destructive inspections using reference defect artefacts, incorporating artificial defects with
well-defined sizes and positions,
to compare results with CST Microwave Studio simulations.
TUE-3_ATH_1.04-02
SUBCOMPONENT TESTING OF
TRAILING EDGE PANELS IN
WIND TURBINE BLADES
15:20
Kim Branner (Technical University
of Denmark)
Peter Berring (Technical University of Denmark)
Philipp Ulrich Haselbach (Technical University of Denmark)
This paper proposes a static subcomponent test method designed
to check the compressive strength
of the trailing edge region in wind
turbine blades. The aim is that
the method can be in certification
according to the new DNV GL rotor blade standard.
TUE-3_ATH_1.04-03
THE POTENTIAL OF SMART
CLIMBING ROBOT COMBINED
WITH A WEATHERPROOF CABIN FOR ROTOR BLADE MAINTENANCE
15:40
Josef Schleupen (University of
Applied Sciences Aachen) Heiko
Engemann (University of Applied
Sciences Aachen) Mohsen Bagheri (University of Applied Sciences Aachen) Stephan Kallweit
(University of Applied Sciences
Aachen) Peter Dahmann (University of Applied Sciences Aachen)
Introduction of a weatherproof
cabin for inspection and repair
of wind turbine rotor blades. A
weather independent solution
can increase the maintenance
efficiency. Including a study of influences of the cabin structure to
SMART‘s climbing process.
49
Munich (MUC)
TUE-3_MUC_3.01-28
MICROMECHANICS OF DAMAGE EVOLUTION DURING
LONGITUDINAL LOADING IN
UD-FRPS WITH VARIABLE
STRENGTH DISTRIBUTION
ALONG FIBER LENGTH
TUE-3
16:00
Nithin Parambil (Indian Institute
of Science)
K. M. P. Fathima (Indian Institute
of Science)
Suhasini Gururaja (Indian Institute of Science)
A numerical framework for damage development in micro-scale
UD-FRP composite with continuous fibers has been presented
in this work. Multiple damage
modes, viz., fiber breakage, matrix plasticity and fiber-matrix
interface debonding has been
simulate.
Seville (SEV)
Venice (VEN)
TUE-3_SEV_3.03-17
NUMERICAL ANALYSIS OF
CARBON FIBER/EPOXY
STITCHED LAMINATES WITH
VARIED THROUGH THICKNESS
STITCH DENSITY
TUE-3_VEN_3.18-04
DIRECT ADHESION OF
CFR-THERMOPLAST ON STEEL
–TESTING AND SIMULATION
OF THE LAP SHEAR FRACTURE
Prabij Joshi (Tokyo Metropolitan
University)
Atsushi Kondo (MSC. Software)
Jun Watanabe (Toray)
Carbon-fibre/epoxy T800SC-24kf
laminates with stitch thread of
vectran 200d with different stitch
density (0.11mm-2 and 0.028mm2) has been analyzed for deformation behavior under in-plane tensile loading based on continuum
mechanics.
Ferhat Yüksel (Fraunhofer ICT)
Roland Hinterhölzl (Technical
University of Munich / Institute
for Carbon Composites)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
A novel joining technology by direct adhesion of carbon fiber-reinforced thermoplastic (CFRTP)
with polyamide 6 matrix on steel
is investigated. Besides testing
the interface is modelled and the
simulation shows good correlation with test results.
Budapest (BUD)
TUE-3_BUD_3.05-12
LOCAL REINFORCEMENT INFLUENCE ON CORRUGATED
LAMINATES STRUCTURAL
STIFFNESS RESPONSE FOR
FLEXIBLE SKINS
Claudia Thurnherr (ETH Zürich)
Carlo M. Franceschi (ETH Zürich)
Francesco M. Filotto (ETH Zürich)
Gerald Kress (ETH Zürich)
Paolo Ermanni (ETH Zürich)
The present study investigates the
influence of local reinforcements
for corrugated laminates on the
anisotropic stiffness response in
order to optimize the bending to
axial stiffness ratio.
16:20
TUE-3_STO_3.14-09
THE ROLE OF POLYMER PHASE
ON THE DEFORMATION OF
HIGHLY FILLED PARTICULATE
POLYMER COMPOSITES
TUE-3_BIA_3.12-04
VIBRATION DAMPING OF NATURAL FIBRE-REINFORCED
COMPOSITE MATERIALS
Rhodes (RHO)
Bruges (BRU)
TUE-3_BRU_2.14-04
FABRICATION OF THE CARBON FOAMS DERIVED FROM
PHENOLIC RESIN MIXED WITH
MESOPHASE PITCH
Sambit Bapari (Indian Institute
of Science)
Atul Chokshi (Indian Institute of
Science)
Md Zillur Rahman (University of
Auckland)
Brian Mace (University of Auckland)
Krishnan Jayaraman
We have studied difference in
compressive strengths of highly
filled polymer composites at different temperatures. It is evident
that the polymer phase is playing a critical role even at volume
fraction close to random close
packing.
The effect of the fibre orientation
on the damping of the composites
is significant. Composites containing 45° fibre orientation exhibit the maximum damping. The
loss factor generally lies in the
range of 2-7% for various fibre
orientations.
Carbon foams are attractive carbon materials due to their advantages such as light weight, high
strength, temperature tolerance.
Carbon foams have potential application such as energy absorption material, high temperature
insulation.
Seung A Song (Chonbuk National
University)
Seong Su Kim (Chonbuk National
University)
TUESDAY
3.01 Fracture and Damage - Micromechanics (8/8)
3.03 Fracture and Damage - Laminate Level (5/5)
3.18 Hybrid Materials and Structures (2/4)
3.05 Multiscale Modeling (4/5)
3.02 Fracture and Damage - Lamina Level (1/5)
3.09 High-Performance Discontiuous Fibre Composites (1/1)
2.14 Foams, Cellular and Lattice
Materials (2/2)
TUE-4_MUC_3.01-29
THE EFFECT OF CARBON
NANOTUBES ON STRESS REDISTRIBUTION AROUND THE
FIBRE BREAK
TUE-4_SEV_3.03-18
PROGRESSIVE MATRIX
CRACKING INDUCED DELAMINATION: A COMPARISON OF
FINITE ELEMENT MODELLING
TECHNIQUES
TUE-4_VEN_3.18-05
HYBRID STRUCTURES OF METALS AND FIBER REINFORCED
THERMOPLASTICS FOR CHASSIS COMPONENTS
TUE-4_BUD_3.05-13
MICRO-SCALE FINITE ELEMENT STUDY OF THE DAMPING IN UNIDIRECTIONAL
FIBER REINFORCED COMPOSITES
TUE-4_STO_3.02-01
FINITE ELEMENT IMPLEMENTATION OF A MODEL FOR
LONGITUDINAL COMPRESSIVE DAMAGE GROWTH WITH
FRICTION
TUE-4_BRU_2.14-05
MICROCELLULAR FOAMS
FROM HIGH PERFORMANCE
PEEK/PEI MISCIBLE BLENDS
Ali Rezaei (Ghent University)
David Garoz Gomez (Ghent University)
Jana Faes (Ghent University)
Francisco A. Gilabert (Ghent University)
Wim Desmet (KU Leuven)
Wim Van Paepegem (Ghent University)
Sérgio Costa (Swerea SICOMP)
Renaud Gutkin (Swerea SICOMP)
Robin Olsson (Swerea SICOMP)
TUE-4_BIA_3.09-01
ANALYSIS OF VISCOELASTIC
BEHAVIOUR OF ULTRA-THIN
CHOPPED CARBON FIBER
TAPE REINFORCED THERMOPLASTICS WITH DIFFERENT
TAPE LENGTHS
Oksana Shishkina (KU Leuven)
Valentin Romanov (KU Leuven)
Yasmin Abdin (KU Leuven)
Stepan Lomov (KU Leuven)
Larissa Gorbatikh (KU Leuven)
TUE-4
This work is a numerical study to
evaluate the influence of carbon
nanotubes (CNTs) on the stress
build-up in and around a broken
fibre in a single carbon fibre/epoxy composite. The studied modifications on the fibre surface are
CNT growth and sizing.
TUE-4_MUC_3.01-30
THE INFLUENCE OF LOCAL
DEFECTS AND NONLINEAR
MATRIX BEHAVIOUR ON THE
FAILURE PROCESS OF FIBER
REINFORCED COMPOSITES
Christian Marotzke (BAM Federal
Institute for Materials Research
and Testing)
Titus Feldmann (BAM Federal
Institute for Materials Research
and Testing)
The stress and strain field arising
in a unidirectional composite ply
is analysed by means of a finite
element model, focussing on the
difference between elastic and
plastic matrix material behaviour.
50
Biarritz (BIA)
Coffee Break
16:50
17:10
Stockholm (STO)
Johannes Reiner (University of
Queensland)
Martin Veidt (University of
Queensland)
Matthew Dargusch (University of
Queensland)
Lutz Gross (University of
Queensland)
Matrix Cracking Induced Delamination is numerically investigated in carbon fibre reinforced
laminates subjected to four-point
bending. Two finite element modelling techniques with and without pre-inserted transverse matrix
cracks are presented.
TUE-4_SEV_3.03-19
SCALING EFFECT IN NOTCHED
COMPOSITES: THE DISCRETE
PLY MODEL APPROACH
Joel Serra (Institut Clément Ader)
Christophe Bouvet (Institut Clément Ader)
Bruno Castanié (Institut Clément Ader)
Caroline Petiot (Airbus Group Innovations)
Numerical and experimental investigations were carried out on
the size effect in notched carbon/epoxy laminates. This paper
presents a computational study
of scaled open-hole tensile tests
using the Discrete Ply Modeling
(DPM) method.
Katja Tenhaeff (BMW Group)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
A possible approach for a more
flexible modular system is the
systematic use of hybrid synergy
parts. This paper presents a potential study for composite reinforcements for components with
stiffness-driven design using geometrically simple parts.
This article employs the strain
energy finite element method to
study the anisotropic damping
of unidirectional fiber reinforced
composites in micro-scale.
TUE-4_VEN_3.18-06
FINDING THE BEST MATERIAL COMBINATIONS THROUGH
MULTI-MATERIAL JOINING,
USING GENETIC ALGORITHM
TUE-4_BUD_3.05-14
EFFICIENT MODELLING AND
ACCURATE CERTIFICATION
OF CURVED AEROSPACE LAMINATES
Vahid Ghaffarimejlej (Technical
University of Braunschweig)
Eiko Türck (Technical University
of Braunschweig)
Thomas Vietor (Institut for Engineering Design)
Timothy Fletcher (University
of Bath)
Anne K. Reinarz (University of Bath)
Timothy Dodwell (University of
Exeter)
Richard Butler (University of Bath)
Robert Scheichl (University of
Bath)
Richard Newley (University of
Bath)
A methodology to discover the
best combination of material in
hybrid-material joining through
genetic algorithm is introduced.
An approach to apply the influence of manufacturing complexities in final selection of optimum
structure is considered.
FEA of 4-Point Bend and L-Pull
tests confirm that, away from the
edges, the L-Pull generates plane
strain conditions, indicative of
a wide part. Resin treatment supresses edge effects. FEA solver
DUNE has potential for highly
paralellized efficiency.
A model for the longitudinal
response of laminated fibre-reinforced composites during
compressive damage growth is
implemented in a Finite Element
(FE) package and validated for
mesh objectivity. The current
work details the FE implementation.
TUE-4_STO_3.02-02
A MODEL FOR THE PREDICTION OF TRANSVERSE CRACK
AND DELAMINATION DENSITY PREDICTION BASED ON
A STRENGTH AND FRACTURE
MECHANICS PROBABILISTIC
APPROACH
Hortense Laeuffer (CNES)
Brice Guiot (University of Bordeaux) Jean-Christophe Wahl (I2M
- Arts et Métiers ParisTech)
Nicolas Perry (Arts et Metiers
ParisTech) Florian Lavelle (CNES)
Christophe Bois (I2M - Arts et
Métiers ParisTech)
A damage meso-model with
strength and energy criteria was
introduced. Damage growth is
managed by Fracture Mechanics
using the energy release rates.
Numerical and experimental results are presented.
Xiuqi Lyu (University of Tokyo)
Jun Takahashi (University of
Tokyo)
Yi Wan (University of Tokyo)
Temperature dependence of UTCTT have remarkable dependence
on tape length. When testing temperature varies from -30 to 120
°C, the modulus variation ratio of
UT-CTT (6 mm), UT-CTT (18 mm)
and UT-CTT (30 mm) are around
32%, 23% and 20%, respectively.
TUE-4_BIA_3.09-02
CFRTP MECHANICAL PROPERTIES SIMULATION BY
MORI-TANAKA MODEL AND
EQUIVALENT LAMINATE
METHODS
Yi Wan (University of Tokyo)
Jun Takahashi (University of
Tokyo)
CFRTP tenseil properties were
simulated by mori-tanaka model
and equivalent laminate methods,
the Mori-Tanaka model have better accuracy in predicting tensile
moduli while equivalent laminate
method predicted better strength
results.
Luigi Sorrentino (National Research Council of Italy)
Livia Cafiero (National Research
Council of Italy)
Salvatore Iannace (Institute for
Macromolecular Studies)
The foamability of miscible
blends based on PEEK and PEI
has been investigated with the
aim to find the proper conditions
to develop low density microcellular foams for high performance
lightweight applications.
TUE-4_BRU_2.14-06
SIMULATION OF THE HEAT
TRANSFER THROUGH FIBROUS
INSULATION
Andrew Webley (University of
Strathclyde)
Liu Yang (University of
Strathclyde)
David Nash (University of
Strathclyde)
This paper covers the thermal
modelling of a randomly orientated sample of glass fibres.
Brighton (BRI)
TUE-3_BRI_2.04-04
CELLULOSE NANOPAPER
COMPOSITES: INFLUENCE OF
NANOPAPER CHARACTERISTICS ON COMPOSITE PROPERTIES
Andreas Mautner (Universität Wien)
Koon-Yang Lee (Imperial College
London)
Wan Wan Nawawi (Imperial College London)
Alexander Bismarck (University
of Vienna)
Cellulose nanopapers are promising scaffolds for composites.
This study aims to develop methodologies to vary the porosity of
nanopapers enabling improved
resin infusion and investigate the
influence of nanopaper properties
onto composite properties.
Naples (NAP)
London (LON)
Bordeaux (BOR)
TUE-3_NAP_2.06-29
VOID REDUCTION IN
OUT-OF-AUTOCLAVE PROCESSING OF CARBON FIBER EPOXY
COMPOSITES BY REINFORCING INTERLAMINAR REGIONS
USING VERTICALLY ALIGNED
CARBON NANOTUBES
TUE-3_LON_5.06-21
WINGCOVER - EFFICIENT PRODUCTION OF WING SHELLS IN
DRY FIBER PLACEMENT TECHNOLOGY
TUE-3_BOR_5.12-04
CURE INDUCED MULTI-AXIAL STRAIN DEVELOPMENT IN
CURVED COMPOSITE COMPONENTS: FIBER-OPTIC-BASED
MONITORING AND NUMERICAL ANALYSIS
Yiying Zhang (N12 Technologies)
Mackenzie Devoe (N12 Technologies) Ben Bancroft (N12 Technologies) Heather Conway (N12
Technologies) Dan Chebot (N12
Technologies) Ryan D. Williams
(N12 Technologies) Dina Deresh
(N12 Technologies) Jay Maxwell
(N12 Technologies) Christopher
Gouldstone (N12 Technologies)
Niels Stoffers (Deutsches Zentrum für Luft- und Raumfahrt e.V.)
Christian Krombholz (German
Aerospace Center)
The paper highlights the major
results achieved by DLR during
the joint project WingCover in cooperation with AIRBUS and CTC.
The main focus is the manufacturability of wing shells in the DLR
GroFi facility using AFP as well as
DFP technology.
Due to interlaminar VACNT reinforcement, ILSS and OHC strength
are improved for up to 33% and
7%, respectively, for cross-ply
epoxy laminates, through a combination of direct crack-arresting
and reduced porosity.
Stuttgart (STG)
Augsburg (AUG)
TUE-3_AUG_4.05-04
EXPERIMENTAL DETERMINATION OF OUT OF PLANE
ELASTIC SHEAR MODULUS BY
THREE POINT BENDING TEST
WITH VARYING SPAN: APPLICATION TO COMPOSITE LAMINATES AND PARTICLE WOOD
PANELS
Takagaki Kazunori (University
of Tokyo)
Shu Minakuchi (University of
Tokyo)
Nobuo Takeda (University of
Tokyo)
Andrea Bernasconi (Politecnico
di Milano)
Roberto Corradi (Politecnico di
Milano)
Riccardo Galeazzi (Politecnico
di Milano)
Cure induced deformation (i.e.
Spring-in) occurs in complex
CFRP components. This research
embedded optical fiber sensors
into the diagonal directions in
L-shaped parts and measured the
through-thickness normal and
shear strain using the sensors.
Exploit the three point bending
test and by optimization algorithms, it is possible to determine
the elastic constants of the composite materials. In this work, we
present the application of this
method to particleboard panel
considered as a sandwich
Ingolstadt (ING)
TUE-3_ING_7.02-11
MECHANICAL RECYCLING
OF CONTINUOUS FIBRE REINFORCED THERMOPLASTIC
COMPOSITES USING COMPRESSION MOULDING
Julien Moothoo (Université
Orléans)
Pierre Ouagne (ENI Tarbes/ Université Orléans)
Production scrap of continuous
fibre reinforced laminates were
cut into aggregates and processed
in bulk form using compression
moulding. The tensile properties
of the recycled panels were characterised to assess this recycling
technique.
Athens (ATH)
TUE-3_ATH_1.04-04
TOWARDS RAIN EROSION
CHARACTERIZATION OF WIND
TURBINE BLADE COATINGS:
EFFECT OF THE IN-MOULD
CURING CONDITIONS ON THE
COATING-LAMINATE INTERPHASE
16:00
Enrique Cortés (Aerox Advanced
Polymers) Fernando Sánchez
(University CEU Cardenal Herrera) Trevor M. Young, Anthony
O‘Carroll (Univeristy of Limerick)
David Busquets (Universidad
Politécnica de Valencia) Francisco
Chinesta (Ecole Centrale Nantes)
Erosion damage is a major concern, be caused by rain droplet
impact on the leading edges of
the wind turbine blades. An investigation has been conducted
to relate the in-mould curing of
the coating on the interphase
coat-laminate and the resulting
rain erosion durability of the
component.
16:20
Coffee Break
2.03 Interfaces and Interphases (1/3)
5.01 Process Simulation I - Draping & LCM (1/3)
5.12 Online Process Monitoring
and Controling (2/3)
5.03 Experimental Methods for
Process Characterisation (1/3)
4.05 Novel Test Methods and
Concepts (2/2)
7.02 Recycling of Fibres and
Composites (4/5)
1.02 Ground-Based Transportation (1/4)
TUE-4_BRI_2.04-05
EFFECT OF FIBRE VOLUME
CONTENT ON THE MECHANICAL PERFORMANCE OF NATURAL FIBRE REINFORCED THERMOPLASTIC COMPOSITES
TUE-4_NAP_2.03-01
A CONTROLLABLE INTERFACE
IN ZNO NANOWIRES–HYBRIDIZED CARBON FIBER COMPOSITES: A NUMERICAL AND EXPERIMENTAL STUDY
TUE-4_LON_5.01-01
BRIDGING SCALES IN FLUID-SOLID-POROUS MODELLING APPROACHES OF INFUSION-BASED PROCESSES IN
INDUSTRIAL CONTEXT
TUE-4_STG_5.03-01
CHARACTERIZATION AND
MODELLING OF SPRING-IN
EFFECT ON Z-SHAPE COMPOSITE PART
TUE-4_ATH_1.02-01
ANALYSIS AND OPTIMIZATION OF A POLYURETHANE
MATRIX COMPOSITE AUTOMOTIVE DOOR
Hongxiao Wang (Xi’an Jiaotong
University) Yugang Duan (Xi’an
Jiaotong University) Beng Wang
(Xi’an Jiaotong University)
Sylvain Drapier (Mines Saint-Etienne) Maxime Blais (Hexcel Reinforcements) Pierre-Jacques Liotier
(Mines Saint-Etienne) Nicolas
Moulin (Mines Saint-Etienne) J.
Bruchon (Mines Saint-Etienne)
TUE-4_AUG_4.05-05
IN-SITU DETECTION OF PHASE
TRANSITIONS OF SEMI-CRYSTALLINE CARBON FIBER REINFORCED THERMOPLASTICS
USING DIELECTRIC ANALYSIS
AND ITS CORRELATION TO
DMA AND DSC
TUE-4_ING_7.02-12
QUANTIFYING VARIABILITY
OF RECYCLED FIBRES IN COMPOSITES USING MULTILEVEL
MONTE CARLO
Kunal Masania (ETH Zürich) Wilhelm Woigk (Institute of Polymer Engineering, FHNW) J. Rion
(Bcomp AG) Clemens Dransfeld
(University of Applied Sciences
and Arts Northwestern Switzerland)
TUE-4_BOR_5.12-05
DETERMINATION OF INTERACTIONS BETWEEN BAR SPREADING PROCESS PARAMETERS
AND SPREADING QUALITY
FOR THE DEVELOPMENT OF AN
AUTOMATED QUALITY CONTROL OF SPREAD HIGH MODULUS FIBER TOWS
Timothy Dodwell (University of
Exeter)
Ken Evans (University of Exeter)
Oana Ghita (University of Exeter)
Anhadjeet Sandhu (University
of Exeter)
Luke Savage (University of Exeter)
Christos Derdas (Henkel AG &
Co KGaA)
Georg Kaesmeier (Roding Automobile GmbH)
Joern Holle (Roding Automobile
GmbH)
Georges Romanos (Henkel AG &
Co KGaA)
Frank Kerstan (Henkel AG & Co
KGaA)
Here we aim to study the impregnation of the natural fibres by
varying the provided amount of
matrix material within the film
stacking process. Along with correlating to properties, we show
that in some applications higher
vf is desired.
TUE-4_BRI_2.04-06
EFFECT OF MOISTURE ABSORPTION ON SELECTED MECHANICAL PROPERTIES OF
NATURAL FIBER COMPOSITES
BASED ON WOVEN FLAX FIBERS AND POLYPROPYLENE
Markus Wolfahrt (Polymer Competence Center Leoben GmbH) Oliver
Rausch-Schott (Polymer Competence Center Leoben GmbH)
Judith Sinic (Wood Carinthian
Competence Center) Stefan Pichler
(Wood Carinthian Competence
Center) Guenter Wuzella (Wood
Carinthian Competence Center)
In this work, an experimental investigation has been carried out
to study the effect of moisture
absorption on the tensile, flexural
and impact properties of an unbalanced woven flax fiber/maleic
anhydride grafted polypropylene
composite.
This paper developed a numerical
method to analysis the effect of
the dimensions of ZWs on IFSS
between fiber and EP. The results
showed that adhesive properties
between ZWs and epoxy increase
with the increase of ZWs’ diameter and length.
Modelling infusion-based processes is a challenge that is partly
raised through the fluid-solid-porous approach developed at
Mines Saint-Etienne. In collaboration with Hexcel, research intend
to bridge approaches at macro
(existing) and micro scales.
TUE-4_NAP_2.03-02
BIOBASED AND BIOINSPIRED:
INTERFACE MODIFICATION IN
CELLULOSE/POLYOLEFIN COMPOSITES BY PHOTO- INITIALIZED THIN LAYER DEPOSITION
TUE-4_LON_5.01-02
CONSTITUTIVE MODELING OF
CARBON FIBER FABRIC: FROM
MATERIAL PARAMETER IDENTIFICATION TO APPLICATION
IN FE FORMING SIMULATION
Milan Kelch (The Biological Materials Groupe)
Thomas Bahners (Deutsches Textilforschungszentrum Nord-West
gGmbH)
Jörg Müssig (University of Applied
Sciences Bremen )
Masato Nishi (JSOL Corporation)
Ichiro Taketa (Toray)
Akira Iwata (Toray)
Tei Hirashima (JSOL Corporation)
The deposition of thin hydrophobic layers on the fibre surface
is investigated as an alternative approach to improve poor
fibre-matrix adhesion between
naturally hydrophilic cellulose fibres and hydrophobic polyolefinic
matrices.
The influence of transverse shear
deformation upon bending behavior, especially small wrinkling,
was numerically examined in this
paper. It has become clear that
the small wrinkling is predominantly caused by transverse shear
deformation.
Lars Appel, Adrian Kerber,
Bahoz Abbas, Sabina Jeschke,
Thomas Gries (RWTH Aachen
University)
The paper presents a bar spreading process study for the determination of the influencing effects
on the spreading width and the
quality of the spread tow. Furthermore, regression models are
generated from the results of
the study.
TUE-4_BOR_5.12-06
DEVELOPING CONTROL SYSTEMS FOR THE RADIAL BRAIDING PROCESS
Viktor Reimer (RWTH Aachen
University)
Mikhail Persiyanov-Dubrov
(RWTH Aachen University)
Josef Dawson (University of Canterbury)
Thomas Gries (RWTH Aachen
University)
This paper describes the first step
to develop a Model-Based Self
Optimizing (MBSO) system for
radial over-braiding process: designing a feedback loop to control
the braiding angle.
Camille Sonnenfeld (ONERA-The
French aerospace Lab) Romain
Agogué (ONERA-The French aerospace Lab) Pierre Beauchêne
(ONERA-The French aerospace
Lab) Yasir Nawab (Université du
Havre) Abdelghani Saouab (Université du Havre) Emmanuel Anfray (Aircelle Ltd, SAFRAN Group)
Bertrand Desjoyeaux (Aircelle Ltd,
SAFRAN Group)
Alexander Chaloupka, Dominik
Grund, André Wedel (Fraunhofer
ICT) Natalie Rudolph (University of Wisconsin-Madison) Klaus
Drechsler (Technical University
of Munich / Institute for Carbon
Composites)
The paper presents a novel sequence of computational methodologies to efficiently quantify
the variability in mechanical
properties of composites remanufactured from recycled/recovered fibres.
This study focuses on the characterization and modeling of of
spring-in effect on Z-shape composite part manufactured with
resin transfer molding process.
A correlation of phase transitions
of carbon fiber reinforced polyamide-6 determined by in-situ
dielectric analysis, dynamic mechanical analysis and differential
scanning calorimetry is done and
a good agreement was found.
TUE-4_STG_5.03-02
CHARACTERIZATION OF THE
MULTI-AXIAL MATERIAL BEHAVIOR OF POLYMER FOAMS
DURING RTM PROCESS
TUE-4_AUG_4.05-06
MODULES FOR AN EFFICIENT
AND HOLISTIC APPLICATION
OF NDT METHODS FOR FIBER
REINFORCED POLYMERS
TUE-4_ING_7.02-13
RECOVER: REGENERATING
THE STRENGTH AND VALUE OF
THERMALLY RECYCLED GLASS
FIBRES.
Jens Gerstenkorn (Karlsruhe Institute of Technology)
Martin H. Kothmann (Audi AG) Felix Diebold (Audi AG)
Günter Deinzer (Audi AG)
Luise Kärger (Karlsruhe Institute
of Technology)
Frank Henning (Karlsruhe Institute of Technology)
Christian Grosse (Technical University of Munich)
James Thomason (University of
Strathclyde)
Liu Yang (University of
Strathclyde)
Eduardo Saez (University of
Strathclyde)
Ulf Nagel (University of
Strathclyde)
The presented study deals with
the characterization of the
multi-axial material behavior of
polymer foams under RTM process related conditions.
NDT techniques, their combination and numerical methods are
modules that can be chosen to
perform a measuring task. In the
frame of holistic NDT a clear concept is required to organize the
different modules in the best way.
Thermal recycling of end-of-life
glass fibre composites or production waste gives fibres with no
strength or value. ReCoVeR treatment of recycled fibres restores
their strength and ability to act
as effective reinforcement in second-life composites.
The paper outlines the optimization of a Loctite MAX 3 Composite automotive door under
FMVSS214S.
TUE-4_ATH_1.02-02
BENDING BEHAVIOR OF
CFRP-REINFORCED THINWALLED METAL BEAMS – A
THEORETICAL AND EXPERIMENTAL STUDY
16:50
Automotive Forum
2.04 Bio Composites (2/6)
17:10
Marco Oxenbauer (BMW AG)
Klemens Rother (University of Applied Sciences Munich)
Investigation of the bending behavior of thinwalled CFRP metal
hybrid beams and comparison to
theoretical predicted properties
and failure mechanisms.
51
Munich (MUC)
17:30
TUE-4_MUC_3.01-31
ON THE ROLE OF SHEAR
TRANSFER MECHANISMS IN
THE LONGITUDINAL TENSILE FAILURE OF CFRP COMPOSITES
TUE-4_SEV_3.03-20
SIZE EFFECT ON
THROUGH-THICKNESS
STRENGTH PROPERTIES OF
3D LOADED COMPOSITE LAMINATES
Gianmaria Bullegas (Imperial College London)
Silvestre Pinho (Imperial College
London)
Soraia Pimenta (Imperial College
London)
Marco Hoffmann (Airbus Group
Innovations)
Kristian Zimmermann (Airbus
Group Innovations)
Brian Bautz (Airbus Group Innovations)
Peter Middendorf (University of
Stuttgart)
A three-Dimensional (3D) Fibre
Bundle Model (FBM) has been developed to simulate the longitudinal tensile failure and predict the
statistical strength distribution of
CFRP bundles of different sizes.
TUE-4
TUESDAY
The size effect on the
through-thickness strength
properties of unidirectional and
quasi-isotropic carbon/epoxy
laminates has been studied by
a combined experimental and
numerical approach. The results
were evaluated by the Weibull
statistical model.
TUE-4_SEV_3.03-21
STRESS INTENSITY FACTORS
AND ENERGY RELEASE RATE
FOR SYMMETRICALLY LAMINATED PLATES BASED ON THE
CLASSICAL PLATE THEORY
17:50
18:10
Seville (SEV)
Kuang-Chong Wu (National Taiwan University)
Horn-Jiunn Sheen (National Taiwan University)
The stress and displacement
fields near the tip of a through
crack in an anisotropic elastic
plate are examined according to
the classical plate theory. Bending stress intensity factors are defined and the associated energy
release rate derived.
TUE-4_SEV_3.03-22
TOWARDS THE MESH INSENSITIVE MODELING OF COMPOSITE DAMAGE IN AN EXPLICIT
CRASH SIMULATION
Sebastian Müller (ESI Group)
Patrick De Luca (ESI Group)
Alain Tramecon (ESI Group)
The contribution presents a hybrid continuum / cohesive ply
damage model in order to eliminate the mesh dependence of
classical continuum damage formulations.
Venice (VEN)
TUE-4_VEN_3.18-07
A STUDY ON THE FORMING
PROCESS AND MECHANICAL
PROPERTIES OF CENTER-PILLAR REINFORCEMENT WITH
CR420/CFRP HYBRID COMPOSITE MATERIALS
Min-sik Lee (Pusan national university)
Chung-gil Kang (Pusan national
university)
Center-pillar reinforcement was
formed with a carbon fiber-reinforced plastic (CFRP)/CR420
hybrid composite. After forming,
the differences in the mechanical
properties of the specimens were
investigated according to position
through simulation.
Budapest (BUD)
Stockholm (STO)
Biarritz (BIA)
TUE-4_BUD_3.05-15
MULTI-SCALE MATERIAL MODEL FOR 3D COMPOSITE USING
MICRO CT IMAGES GEOMETRY
RECONSTRUCTION
TUE-4_STO_3.02-03
AN EXPERIMENTAL METHOD
TO DETERMINE THE LONGITUDINAL INTRALAMINAR FRACTURE TOUGHNESS OF HIGH
TENSILE STRENGTH FIBRE-REINFORCED UNIDIRECTIONAL
COMPOSITES
TUE-4_BIA_3.09-03
ANALYSIS OF DAMAGE AND
FAILURE MECHANISMS OF
QUILTED STRATUM PROCESS®
COMPOSITE PARTS
TUE-4_BRU_2.14-07
NOVEL LATTICE STRUCTURES
BASED ON CONTINUOUS FIBERS: FABRICATION AND MECHANICAL PROPERTIES
Yann Todeschini (ONERA-The
French aerospace Lab)
Cédric Huchette (ONERA-The
French aerospace Lab)
Cédric Julien (ONERA-The French
aerospace Lab)
Denis Espinassou (CETIM)
Rehan Umer (Khalifa University)
Hassan Jishi (Khalifa University)
Wesley Cantwell (Khalifa University)
Yang Liu (Ecole des Mines de
Douai)
Ilya Straumit (KU Leuven)
Dmytro Vasiukov (Ecole des
Mines de Douai)
Stepan Lomov (KU Leuven)
Stéphane Panier (Ecole des Mines
de Douai)
Haibao Liu (Queen‘s University
Belfast)
Brian Falzon (Queen‘s University Belfast)
Wei Tan (Queen‘s University
Belfast)
3D real model was reconstructed
from micro CT images by taking
advantage of the software VoxTex.
Based upon such model both predicted linear and nonlinear mechanical behaviors showed good
agreement with the experiments.
This paper proposes a simple,
yet novel, improvement on the
testing of a CT composite specimen for the measurement of
high-strength fibre-dominated intralminar fracture toughness.
TUE-4_VEN_3.18-08
HYBRID CORK-POLYMER COMPOSITES FOR IMPROVED
STRUCTURAL DAMPING PERFORMANCE
TUE-4_BUD_3.05-16
MULTISCALE MODELLING AND
SIMULATION OF FAILURE IN
METAL-COMPOSITE INTERFACES
TUE-4_STO_3.02-19
NUMERICAL AND EXPERIMENTAL STUDY ON THE FAILURE
OF NON-CONVENTIONAL LAMINATES
Matthew Blacklock (RMIT University)
Nigel St.John (Maritime Disvision,
DST-Group Melbourne)
Russel Varley (CSIRO Manufacturing Victoria)
Chung Wang (RMIT University
Melbourne)
Franz Hirsch (Technical University
of Dresden)
M. Kästner (Technical University
of Dresden)
María Luisa Velasco López (University of Seville)
Federico París (University of
Seville)
Juan Carlos Marín (University
of Seville)
Alberto Barroso (University of
Seville)
The present work aims to investigate the effectiveness of cork material in improving the product of
the stiffness and damping ratio of
carbon-epoxy composite materials for structural applications.
TUE-4_VEN_3.18-09
THE INTERFACE OF CFRP
FACE SHEETS AND ALUMINUM FOAM CORES IN HYBRID
SANDWICH PANELS MANUFACTURED BY A PUR SPRAYING
PROCESS
Peter Rupp (Karlsruhe Institute of
Technology)
Florian Wafzig (Fraunhofer ICT)
Kay Weidenmann (Karlsruhe Institute of Technology)
Hybrid sandwich panels with
CFRP face sheets and aluminum
foam core structures were manufactured by means of a PUR
spraying process. The interface
of face sheets and core was investigated optically and with the
climbing drum peel test.
In this contribution the inelastic
behavior of bi-material interfaces
is considered within a numerical homogenization approach.
Studies show the influence of the
elastic properties and the surface
roughness on the overall interface
characteristics.
TUE-4_BIA_3.09-04
EVALUATION AND VERIFICATION OF TEMPERATURE
DEPENDENT OUT-OF-PLANE
SHEAR MODULUS OF DISCONTINUOUS CARBON FIBER
REINFORCED THERMOPLASTIC COMPOSITE BY MODIFIED
DOUBLE NOTCHED COMPRESSION METHOD.
Wataru Nagatsuka (University of
Tokyo) Tsuyoshi Matsuo (University of Tokyo) Takashi Murakami
(Shimadzu Corporation)
Mitsuharu Kan (HONDA R&D)
Jun Takahashi (University of Tokyo)
This paper suggested the model
for predicting the out-of-plane
shear modulus of discontinuous carbon fiber reinforced thermoplastics have considered the
viscoelastic properties of matrix
resin. And it was verified by the
improved test method.
TUE-4_BUD_3.05-17
MULTISCALE SIMULATION OF
DAMAGE AND HEALING OF
COMPOSITE STRUCTURES
TUE-4_BIA_3.09-05
PREDICTION OF STIFFNESS
FOR TOW-BASED DISCONTINUOUS COMPOSITES
Lucas Brely (Universita di Torino)
Federico Bosia (University of
Torino)
Nicola Pugno (University of
Trento)
Yizhuo Li (Imperial College
London)
Soraia Pimenta (Imperial College
London)
Manon Thierry (Imperial College
London)
Wei Yu Tan (Imperial College
London)
We developed a numerical model
to simulate the mechanisms involved in damage progression and
energy dissipation in complex
structures, considering heterogeneities, hierarchical structure
and structural modifications of
the material.
An FE model with an inhomogeneous local stiffness field (generated from a statistical model)
of TBDCs was developed. It generates a heterogeneous strain
field of a specimen under uniform
stress, which agrees well with experimental data.
18:30
General Assembly (MUC)
20:00
PhD Student Event
52
The research work proposed here
aims at studying, from the experimental and numerical standpoints, the damage and failure
mechanisms of heterogeneous
laminates containing discontinuous plies.
Rhodes (RHO)
Bruges (BRU)
Continuous fiber lattice structures
were manufactured using a lostmold technique. Lattice structures of BCC, BCCz, FCC, F2BCC,
Pyramid and Octet designs were
produced. The specific compression strengths were found superior to traditional cores.
TUE-4_BRU_2.14-08
ROBUST AND HIGHLY INTERCONNECTED POLYURETHANE
DIACRYLATE BASED MACROPOROUS POLYMERS
Qixiang Jiang (University of Vienna)
Angelika Menner (University of
Vienna)
Alexander Bismarck (University
of Vienna)
Open porous polymers were obtained via polymerising emulsion
templated based on polyurethane
diacrylate and styrene; the resulting polymer foams (polyHIPEs)
were tougher than the polyHIPE
based on styrene and divinylbenzene.
TUE-4_BRI_2.04-07
EFFECTS OF THE NATURAL
FIBER STITCHING ON THE
IMPACT AND COMPRESSION
AFTER IMPACT RESPONSE
OF THE FLAX/EPOXY COMPOSITES
Mohammad Ravandi (National
University of Singapore)
Wern Sze Teo, Le Quan Ngoc
Tran, Ming Shyan Yong (Singapore Institute of Manufacturing
Technology)
Tong-Earn Tay (National University of Singapore)
This study experimentally investigates the effects of natural fiber
stitching on low-velocity impact
response and compression after impact (CAI) stiffness of the
continuous flax/epoxy composite
laminates.
TUE-4_BRI_2.04-08
EXPERIMENTAL CHARACTERISATION OF THE IMPACT
RESISTANCE OF FLAX FIBRE
REINFORCED COMPOSITE
LAMINATES
Karthik Ram Ramakrishnan (Ecole
des Mines d‘Alès)
Stéphane Corn (Ecole des Mines
d‘Alès)
Nicolas Le Moigne (Ecole des
Mines d‘Alès)
Pierre Slangen (Ecole des Mines
d‘Alès)
Anne Bergeret (Ecole des Mines
d‘Alès)
The impact resistance of biocomposites made of commingled flax
and polypropylene fibres is investigated. The different modes
of damage and the critical energy
for penetration were identified.
An FE model was also developed
to simulate the response.
TUE-4_BRI_2.04-09
IMPREGNATED FIBRE BUNDLE
TEST FOR NATURAL FIBRE COMPOSITES: FIBRES PROPERTIES
Farida Bensadoun, Joris Baets
(KU Leuven) Nina Graupner, Jörg
Müssig (University of Applied Sciences Bremen ) Peter Davies (IFREMER - Centre de Brest Marine
Structures Group) Moussa Gomina (Université de Caen Basse-Normandie) Antoine Kervoelen (Université de Bretagne Sud - Limatb)
Christophe Baley (LIMATB-UBS)
In this study, the Impregnated Fibre Bundle Test (IFBT), a common
method used for the determination of carbon and glass fibre
properties in composites, was
adapted for flax and hemp fibres.
Naples (NAP)
TUE-4_NAP_2.03-03
EFFECT OF SURFACE MODIFICATION OF REGENERATED
CELLULOSE FIBERS ON MOISTURE ABSORPTION AND FIBER/MATRIX ADHESION
Roberts Joffe (Lulea University of
Technology)
Abdelghani Hajlane (Lulea University of Technology)
Hamid Kaddami (Laboratory of
Organometallic and Macromolecular Chemistry-Composite
Materials)
The paper demonstrates reduction of moisture absorption and
improvement of the adhesion
with epoxy of the hierarchical reinforcement obtained by grafting
nano-crystals on micro-sized regenerated cellulose fibers.
TUE-4_NAP_2.03-04
INFLUENCE OF EPOXY- AND
POLYAMIDE-COMPATIBLE
CARBON FIBER SIZINGS ON
INTERFACIAL FRACTURE
TOUGHNESS AND IN-PLANE
SHEAR PROPERTIES OF CARBON FIBER REINFORCED
POLYAMIDE-6
Michael Greisel (University of
Augsburg) Alexander Kurek (SGL
Carbon GmbH) Alexander Chaloupka (Fraunhofer ICT) Judith
Moosburger-Will, W.M. Mueller,
Markus Sause, Siegfried Horn
(University of Augsburg)
The present work demonstrates
the effect of epoxy- and polyamide-compatible sizings in carbon
fiber reinforced polyamide-6
composites on the micro-mechanical fracture toughness and the
macro-mechanical in-plane shear
properties.
London (LON)
TUE-4_LON_5.01-03
FORMING SIMULATION OF
COMPOSITES WITH THERMO-VISCOUS PROPERTIES
Martin Schulz (Dassault Systemes
Deutschland GmbH)
Jens Luecke (Dassault Systemes
Deutschland GmbH)
For the simulation of an thermoforming process of fiber reinforced thermoplastics a user
defined material constitutive la
as well as a user defined „sticky“
contact with anisotropic friction
was developed for Abaqus. The
status quo will be presented.
TUE-4_LON_5.01-04
INVERSE CHARACTERIZATION
METHOD FOR DRAPING SIMULATION BASED ON AUTOMATIC MEASUREMENT OF FIBER
ORIENTATION
Arnaud Dereims (ESI Group)
Pierre Marquette (ESI Group)
Pierre Guyon (ESI Group)
Julien Colmars (University of
Lyon)
Anh Tuan Ta (INSA de Lyon)
Philippe Boisse (INSA de Lyon)
This paper presents an innovative methods allowing for inverse
characterization of shearing
sitiffness which is a key input for
draping or forming simulation of
fabrics. This work was carried out
within FibreMap project (FP7 European project).
Bordeaux (BOR)
Stuttgart (STG)
TUE-4_BOR_5.12-07
FROM LAB TO FACTORY: A
KNOWLEDGE BASED APPROACH TO UNDERSTANDING
AND LOWERING THE BARRIERS TO NEW TECHNOLOGY UPTAKE IN INDUSTRY,
AS APPLIED TO IN-PROCESS
MONITORING OF COMPOSITE
MATERIALS.
TUE-4_STG_5.03-03
CHARACTERIZATION OF
TOOL-PART-INTERACTION AND
INTERLAMINAR FRICTION FOR
MANUFACTURING PROCESS
SIMULATION
Laura Rhian Pickard (University
of Bristol)
Ivana Partridge (University of
Bristol) Paul Shakespeare (University of Bristol)
A comparison of knowledge
transfer in academia and industry, to facilitate industrial uptake
of in-process monitoring technologies.
TUE-4_BOR_5.12-08
IN-LINE MONITORING DURING
PRODUCTION OF COMPOSITES BASE MATERIAL AND
PREPREGS: HIGHER QUALITY
DECREASES COSTS AND INCREASES CUSTOMER SATISFACTION
Tobias A. Weber (Airbus Helicopters)
Jane J. Tellis (Airbus Helicopters)
Miro Duhovic (Institute for Composite Materials)
The paper explains and compares two testing methods for
tool-part-interaction and interlaminar friction. The results are
discussed, the factors influencing the two types of friction are
identified and their interactions
determined.
TUE-4_STG_5.03-04
THE INFLUENCE OF MOISTURE
ON THE DE-CONSOLIDATION
BEHAVIOUR OF CARBON FIBER REINFORCED PA-6 LAMINATES
Hans Oerley (Dr. Schenk GmbH
Industriemesstechnik)
Thomas Guglhoer (University of
Augsburg)
Markus Sause (University of
Augsburg)
Automatic optical inspection
(AOI) systems are applied as inline production process control.
Covering the full width of the material they detect irregularities in
composite materials and monitor
material properties (i.e. fibre web
formation, ...).
De-consolidation behavior of
dried and wet carbon fiber reinforced Polyamide 6 laminates
was investigated via compression
tests at elevated temperature.
X-ray computed tomography and
microscopy reveals an increase in
porosity during heat treatment.
TUE-4_LON_5.01-05
INVESTIGATION AND SIMULATION OF FORMING BEHAVIOUR OF PREFORMS MADE
BY DIRECT FIBRE PLACEMENT
TUE-4_STG_5.03-05
DUAL FLOW FRONT MEASUREMENTS FOR IMPROVED
PERMEABILITY CHARACTERISATION
Manuel Tartler (Compositence
GmbH) Dominik Hägele (Compositence GmbH) Julian Fial (University of Stuttgart) Mathias Engelfried
(University of Stuttgart) Ingo Karb
(Compositence GmbH) Peter Middendorf (University of Stuttgart)
Mikhail Matveev (University of
Nottingham)
Arthur Jones (University of Nottingham)
Andrew Long (University of Nottingham) Andreas Endruweit
(University of Nottingham)
FE-Simulations are needed to predict the forming capability and
behaviour of preforms made by
direct fibre placement. Material
properties are measured by different test methods and the simulation results are compared to
experimental forming tests.
A comparison of two experimental techniques for flow front tracking for measuring the unsaturated
permeability of fibre reinforcements is presented: one based
on pressure transducers and the
other using video recording of the
evolving flow front.
Augsburg (AUG)
TUE-4_AUG_4.05-07
MONITORING FATIGUE DAMAGE IN CFRP USING ULTRASONIC BIREFRINGENCE
Peter Fey (University of Stuttgart)
Marc Kreutzbruck (University of
Stuttgart)
The progress of fatigue damage
in CFRP under cyclic tensile load
was monitored non-destructively using ultrasonic birefringence.
Using a physics based model, the
damage state of each fibre direction in a quasi-isotropic layup
could be quantified.
Ingolstadt (ING)
TUE-4_ING_7.02-14
RECYCLING OF CARBON FIBERS FROM CARBON FIBER
REINFORCED THERMOSET
POLYMERS BY USE OF SUBAND SUPERCRITICAL FLUIDS
Anna Schneller (University of
Augsburg) Lucile Henry (Institut de Chimie de la Matière
Condensée de Bordeaux CNRS)
Janosch Doerfler, W.M. Mueller
(University of Augsburg) Cyril
Aymonier (Institut de Chimie de
la Matière Condensée de Bordeaux CNRS ) Siegfried Horn
(University of Augsburg)
A fiber-matrix separation step is
investigated since it has major
impact on the properties and the
processability of the recycled CF.
The process is based on the solvolysis of a thermoset resin by
two different sub- and supercritical fluids.
TUE-4_AUG_4.05-08
MOBILE NON-DESTRUCTIVE
TESTING METHODS FOR SURFACE CHARACTERIZATION OF
CFRP IN AEROSPACE
TUE-4_ING_7.02-15
RECYCLING OF PHENOLIC
MOLDING COMPOUNDS AS
FILLER IN PARTICULATE COMPOSITES
Sebastian Heckner (Airbus Group
Innovations)
Christian Grosse (Technical University of Munich)
Sebastian Eibl (Bundeswehr research institute for materials,
fuels and lubricants (WIWeB))
Andreas Helwig (Airbus Group
Innovations)
Matthias Geistbeck (Airbus Group
Innovations)
Fabien Bernardeau (Ecole des
Mines d‘Alès)
Didier Perrin (Ecole des Mines
d‘Alès)
Anne-Sophie Caro (Ecole des
Mines d‘Alès)
Jean-Charles Benezet (Ecole des
Mines d‘Alès)
Patrick Ienny (Ecole des Mines
d‘Alès)
This paper presents Non-Destructive Testing (NDT) techniques for
detecting thermal degradation of
the polymer matrix and silicone
based release agent residues on
Carbon Fiber Reinforced Plastic
(CFRP) surfaces.
TUE-4_AUG_4.05-09
PREDICTION OF TENSILE
STRENGTH OF UNIDIRECTIONAL CARBON FIBER/EPOXY COMPOSITES USING THE
FRAGMENTATION TEST
A recycling method for thermoset
material is proposed in this work,
consisting in using it as a filler
in a plastic. The effect of particle
size distribution and coupling
agent on mechanical properties
are studied, as well as damaging
mechanism.
Athens (ATH)
TUE-4_ATH_1.02-03
DIMENSIONING AND SIMULATION OF A CFRP – TRAILING
LINK FOR THE REAR AXLE OF
COMMERCIAL VEHICLES
17:30
Florian Herrla (Universität der
Bundeswehr München)
Norbert Elbs (MAN Truck &
Bus AG)
This investigation shows the entire development of a trailing link
concept in composite/aluminium
differential construction for the
rear axle of a MAN TGX long-haule
transport vehicle with respect to
cost-effective production.
TUE-4_ATH_1.02-04
EXPERIMENTAL INVESTIGATION OF AUTOMOTIVE COMPONENTS CONSISTING OF
HYBRID FRP-METAL-MATERIAL SYSTEMS UNDER DYNAMIC
LOADING
Michael Dlugosch (Fraunhofer
EMI)
Dirk Lukaszewicz (BMW Group)
Jens Fritsch (Fraunhofer EMI)
Stefan Hiermaier (Fraunhofer
EMI)
Generic components comprised
of hybrid material systems consisting of steel and advanced
composites are dynamically
tested under axial impact and
bending.
17:50
Automotive Forum
Brighton (BRI)
18:10
Jun Watanabe (Toray) Fumihiko
Tanaka (Toray) Ryo Higuchi (Graduate School of Tohoku University)
Hiroaki Matsutani (Toray)
Haruki Okuda (Toray) Tomonaga
Okabe (Tohoku University)
We investigated the fiber breakage behavior of unidirectional
carbon fiber-reinforced epoxy matrix composites, estimated by taking into account the stress concentration in the adjacent fibers
that results from matrix cracking
around fiber breakages.
18:30
General Assembly (MUC)
20:00
PhD Student Event
53
Munich (MUC)
Seville (SEV)
Venice (VEN)
Budapest (BUD)
Stockholm (STO)
Biarritz (BIA)
Rhodes (RHO)
Bruges (BRU)
9:00
Plenary Lecture 3 (MUC) by Gerd Wingefeld, SGL CARBON SE, Germany: COMPOSITE MATERIAL SOLUTIONS: PROGRESS OF THE PAST, SOLUTIONS OF TODAY, CONCEPTS FOR TOMORROW
10:00
3.02 Fracture and Damage - Lamina Level (2/5)
3.22 Ductile and Pseudo-ductile
Composites (1/4)
3.18 Hybrid Materials and Structures (3/4)
3.10 Fatigue of Composites (1/6)
3.20 Joining and Joints (1/6)
3.08 Short Fibre Reinforced Thermoplastics (1/4)
3.05 Multiscale Modeling (5/5)
2.12 Lightning Strike, Fire Behavior and Fire Retardance/Resistance of Composites (1/3)
WED-1_MUC_3.02-04
ANALYSIS OF THE MATRIX
TRANSVERSE DAMAGE IN A
UD PLY OF AN UNBALANCED
HYBRID PEEK-CARBON/GLASS
COMPOSITE UNDER COMBINED STATIC LOAD
WED-1_SEV_3.22-01 A
PSEUDO DUCTILE ANGLE-PLY
SUB-LAMINATE APPROACH
FOR MULTIDIRECTIONAL THIN
PLY CFRP LAMINATES
WED-1_VEN_3.18-10
INFLUENCE OF INJECTION
MOULDING PROCESS PARAMETERS ON THE JOINT
STRENGTH OF HYBRID FIBRE-REINFORCED THERMOPLASTIC WITH LASER-STRUCTURED METALS.
WED-1_BUD_3.10-01
A COMPARATIVE STUDY OF
THE STATIC AND CYCLIC
ACOUSTIC EMISSION BEHAVIOR OF FIBER REINFORCED
THERMOPLASTICS
WED-1_STO_3.20-01
FATIGUE BEHAVIOUR AND
DAMAGE TOLERANT DESIGN
OF COMPOSITE BONDED
JOINTS FOR AEROSPACE APPLICATION
WED-1_RHO_3.05-18
NEW PHENOMENOLOGICAL
FAILURE MODEL FOR COMPOSITE MATERIALS FROM A
HOMOGENIZED MICROMECHANICS APPROACH
WED-1_BRU_2.12-01
A MODEL FOR THE CHARACTERISATION AND DESIGN OF
PASSIVE FIRE PROTECTION
(PFP) SYSTEMS FOR STEEL
STRUCTURES
Constantin Bauer (Institute for
Composite Materials)
Thomas Rief (Institute for Composite Materials)
Joachim Hausmann (Institute for
Composite Materials)
Thomas Schalk (ZF Friedrichshafen AG)
Thomas Kruse (Airbus Operations)
Thomas Körwien (Airbus Defence
and Space)
Roman Ruzek (VZLU)
WED-1_BIA_3.08-01
ANALYSIS OF CRACK PROPAGATION DURING FATIGUE
TESTS IN INJECTION MOULDED NOTCHED SPECIMENS
MADE OF SHORT GLASS FIBRE
REINFORCED POLYAMIDE
Shari King (University of Waterloo)
Trevor Sabiston (University of
Waterloo)
Mohsen Mohammadi (University
of New Brunswick)
Kaan Inal (University of Waterloo)
Geoff Gibson (Newcastle University)
Wan Wan Jusoh (Newcastle University)
George Kotsikos (Newcastle University)
Pietro Di Modica (Newcastle
University)
Sandra Christke (Newcastle University)
Nassira Boulebbad-Gomez (Airbus Helicopters)
Jean-Paul Charles (Airbus Helicopters)
Noël Lahellec (LMA-CNRS)
Christian Hochard (LMA-CNRS)
10:20
54
Analytical modelling of thin ply
angle-ply CFRP laminates has
shown that is possible achieve a
pseudo ductile response with a
[+-theta/0]_s layup. These layups
are suggested as candidates for
pseudo-ductile sub-laminates in
multidirectional laminates.
Johann Maaß (Technical University of Dresden)
Maik Gude (Technical University
of Dresden)
Michael Krahl (Technical University of Dresden)
Michel Wolf (Technical University
of Dresden)
Alexander Krämer (Technical University of Dresden)
P. Amend (Bayerisches Laserzentrum GmbH)
S. Roth (Bayerisches Laserzentrum GmbH)
Metal surfaces structured by laser radiation in combination with
thermoplastic injection moulding
processes were investigated concerning sensitive process parameters leading to good joint strength
for creating intrinsic hybrids.
WED-1
WEDNESDAY
A new material for a better identification of the model parameters
for matrix transverse damage.
Off-axis quasi-static tensile tests
with loading/unloading cycles
done using flat dumbbell-shaped
specimens. Damage evolution of
specimen is non linear.
Jonathan Fuller (University of
Bristol)
Meisam Jalalvand (University
of Bristol)
Michael Wisnom (University of
Bristol)
WED-1_MUC_3.02-05
ANALYSIS OF TRANSVERSE
COMPRESSION AND IN-PLANE
SHEAR IN UNIDIRECTIONAL COMPOSITES BY A PROGRESSIVE DAMAGE MODEL
IN PRESENCE OF FIBER ROTATION
WED-1_SEV_3.22-02
ACOUSTIC EMISSION BASED
METHOD TO CHARACTERISE
THE DAMAGE MODES IN UD
THIN CARBON/GLASS HYBRID
LAMINATES
WED-1_VEN_3.18-11
MANUFACTURING OF HIGH
PERFORMANCE CARBON FIBRE-REINFORCED METAL
SANDWICH MATERIALS AND
THEIR FORMING BEHAVIOUR
Sina Eskandari (University of
Porto)
Francisco Andrade Pires (University of Porto)
Pedro Camanho (University of
Porto)
Antonio T. Marques (University
of Porto)
Mohamad Fotouhi (Amirkabir University of Technology)
Putu Suwarta (University of
Bristol)
Meisam Jalalvand (University
of Bristol)
Gergely Czel (University of
Bristol)
Michael Wisnom (University of
Bristol)
An extended model is proposed to
incorporate finite fiber rotation in
fiber reinforced plastic laminates
during the continuous damage
evolution using continuum mechanics. The model prediction
will be assessed with a set of experimental data.
This paper investigates the relationship between the features of
acoustic emission signals and the
corresponding damage modes in
S-Glass/carbon UD hybrid laminates. The generated results are
useful to characterise damage
modes in hybrid laminates.
Tino Wollmann (Technical University of Dresden) Christina
Krbetschek (Technical University
Bergakademie Freiberg) Benedikt
Poggel (KIRCHHOFF Automotive
Deutschland GmbH) Oliver Vogt
(MgF Magnesium Flachprodukte
GmbH) Christian Paul (ThyssenKrupp AG TechCenter Carbon Composites) J. Jaschinski (Technical
University of Dresden) R. Kawalla
(Technical University Bergakademie Freiberg) Niels Modler (Technical University of Dresden)
The manufacturing of carbon fibre-reinforced metal sandwich
materials consisting of cover
sheets made of steel or magnesium and a core of carbon
fibre-reinforced plastic as well
as their forming behaviour is described in this paper.
The present work deals with the
acoustic emission behavior of
short fiber-reinforced thermoplastics. The aim of this work is to
transfer the information acquired
with acoustic emission in static
tensile tests to the fatigue behavior of the material.
WED-1_BUD_3.10-02
CREEP-FATIGUE INTERACTION
IN COMPOSITE MATERIALS
Abdolvahid Movahedi-Rad (Ecole
Polytechnique Fédérale de Lausanne)
Thomas Keller (Ecole Polytechnique Fédérale de Lausanne)
Anastasios Vassilopoulos (EPFL)
A novel phenomenological model
taking into account the creep-fatigue interaction in composite
materials’ fatigue performance is
introduced in this paper.
Summary of the work performed
on fatigue testing and crack arresting of high load transfer bonded CFRP joints by means of disbond stopping features. Target is
the development of a new design
of bonded Joints compliant with
todays certification rules.
WED-1_STO_3.20-02
MECHANISMS TO ARREST A
CRACK IN THE ADHESIVE BONDLINE OF FATIGUE LOADED
CFRP-JOINTS USING A RIVETLESS NUTPLATE JOINT
Ronny Sachse (University of
Stuttgart)
Anthony K. Pickett (Institut of Aircraft Design)
Michael Gnädinger (Institut of
Aircraft Design)
Peter Middendorf (University of
Stuttgart)
Adhesively bonded composite
joint configurations with different
mechanical fasteners were investigate both experimentally and
numerically to identify and quantify mechanisms that arrest crack
growth in the adhesive bondline
when loaded in fatigue.
Andrea Bernasconi (Politecnico
di Milano)
Edoardo Conrado (Politecnico
di Milano)
Peter Hine (University of Leeds)
The influence of notch severity, fiber content and orientation
on fatigue crack nucleation and
propagation phases in injection
moulded, v-notched specimens
made of SGFRP has been analysed on the base of experimental
observations.
WED-1_BIA_3.08-02
ASSESSING A COMPLETE CAD
SOLUTION FOR THE DESIGN
AND USE OF SHORT FIBRE
COMPOSITES BY MEANS OF A
COMBINATION OF MOLDFLOW
AND ABAQUS
Peter Hine (University of Leeds)
Bushra Parveen (University of
Leeds)
Fin Caton-Rose (University of
Bradford)
This paper assesses the current
state of the art in the design and
use of short fibre composites, by
comparing the deflection of a real
part with that predicted by the
combination of a mould filling
simulation and a finite element
method.
This work aims to accurately predict the response and failure of a
unidirectional long-fibre composite materials using a physically
based constitutive law.
WED-1_RHO_3.05-19
SIMULATION ON THERMO-PHYSICAL PROPERTIES
OF FINE WEAVE PIERCED C/C
COMPOSITE
Heng Liang (Nanjing University
of Aeronautics and Astronautics)
Mingbo Tong (Nanjing University
of Aeronautics and Astronautics)
Yuqing Wang (Nanjing University
of Aeronautics and Astronautics)
Based on the meso and micro
structures of fine woven pierced
c/c composite, finite element
models of single yarn and c/c
composite are established respectively. By using the periodic
boundary condition, the thermo-physical properties of composite are calculated.
This paper will describe the use
of a small-scale constant heat
flux propane burner test to characterise PFP systems. Three such
systems will be described, each
working on a different principle
with dissimilar boundary conditions.
WED-1_BRU_2.12-02
CHARACTERIZATION AND
MODELLING OF THERMO-MECHANICAL BEHAVIOR OF
AERONAUTICAL CFRP MATERIALS EXPOSED TO FIRE
Denis Bertheau (Institute Pprime)
Eric Lainé (Institute Pprime)
Damien Marchand (Institute
Pprime)
Pasquale Antonio Pirozzi (Institute Pprime)
Daniel Jarne Ornia (Universitat
Politècnica de Catalunya)
Rocio De Vincente (Institute
Pprime)
This study presents small scale
tests on carbon epoxy laminates
exposed to a flame, simulating
post-crash or in flight fire. A thermal model has been developed to
evaluate temperature profile and
pyrolysis zone in the bulk of the
composite material.
Brighton (BRI)
Naples (NAP)
London (LON)
Bordeaux (BOR)
Stuttgart (STG)
Augsburg (AUG)
Ingolstadt (ING)
Athens (ATH)
9:00
Plenary Lecture 3 (MUC) by Gerd Wingefeld, SGL CARBON SE, Germany: COMPOSITE MATERIAL SOLUTIONS: PROGRESS OF THE PAST, SOLUTIONS OF TODAY, CONCEPTS FOR TOMORROW
2.04 Bio Composites (3/6)
2.03 Interfaces and Interphases (2/3)
5.01 Process Simulation I - Draping & LCM (2/3)
5.12 Online Process Monitoring
and Controling (3/3)
5.03 Experimental Methods for
Process Characterisation (2/3)
4.03 Structural Health Monitoring
and Control (1/3)
7.02 Recycling of Fibres and
Composites (5/5)
1.02 Ground-Based Transportation (2/4)
WED-1_BRI_2.04-10
INFLUENCE OF FIBRE LOADING, FIBRE LENGTH, FIBRE
ORIENTATION AND VOIDS ON
THE CHARACTERISTICS OF
COMPRESSION AND INJECTION MOULDED CELLULOSE
FIBRE-REINFORCED POLYLACTIDE (PLA) COMPOSITES
WED-1_NAP_2.03-05
INTERFACE ENHANCEMENT ON
CFRP COMPOSITES BY EPOXIDATION OF CARBON FIBRES
AT ROOM TEMPERATURE
WED-1_LON_5.01-06
MESO-MACRO MODELLING
THE IN-PLANE SHEAR DEFORMATION BEHAVIOUR OF NCF
CARBON/EPOXY PREPREGS
IN AUTOMOTIVE APPLICATIONSEAR DEFORMATION
BEHAVIOUR OF NCF CARBON/
EPOXY PREPREGS IN AUTOMOTIVE APPLICATIONS M.
WED-1_BOR_5.12-09
ON THE OBSERVATION OF
FLOW FRONT POSITION UNDER VARIABLE INLET PRESSURE
WED-1_STG_5.03-06
EXPERIMENTAL INVESTIGATION OF TEXTILE PERMEABILITY IN THE PRESENCE OF
SPHERICAL INCLUSIONS
WED-1_AUG_4.03-01
ACOUSTIC EMISSION DETECTION OF DAMAGE INITIATION
IN PLAIN WEAVE CFRP LOADED IN BENDING
WED-1_ING_7.02-16
RESHAPEABLE, REPAIRABLE
AND RECYCLABLE HIGH PERFORMANCE EPOXY THERMOSET COMPOSITES
WED-1_ATH_1.02-05
INSTANTANEOUS FASTENING
OF A CFRP AND STEEL PLATE
BY A SELF-PIERCING RIVET
Luis Pina (INEGI) Fernando Silva
(INEGI) Masoud Bodaghi (INEGI)
F. Gomes de Almeida (INEGI)
Baris Caglar (Koc University Ecole Polytechnique Fédérale de
Lausanne) Véronique Michaud
(EPFL) E. Murat Sozer (Koc University - Ecole Polytechnique
Fédérale de Lausanne)
Marek Nowak (Cracow University of Technology) Maciej Panek
(Wroclaw University of Technology) Ireneusz Baran (Cracow University of Technology) Krzysztof
Konsztowicz (University of Bielsko-Biala)
Alaitz Ruiz de Luzuriaga (CIDETEC) Alaitz Rekondo (CIDETEC)
Roberto Martín (CIDETEC) Nerea
Markaide (CIDETEC) Germán Cabanero (CIDETEC) Hans-Jürgen
Grande (CIDETEC) Ibon Odriozola
(CIDETEC)
Acoustic Emission (AE) was used
to detect micro-crack initiation
in carbon fiber reinforced composites in 4-point bending. Fiber
debonding and breakage occurred
simultaneously and were the first
defects to initiate in the examined materials.
The recycling of FRPCs has been
an important topic over the last
two decades in order to make
them more sustainable .In an approach to solve such limitations,
a novel “dynamic” epoxy network
based on reversible chemical
crosslinks has been developed.
WED-1_AUG_4.03-02
ACOUSTIC EMISSION OF SIC/
SIC COMPOSITE DURING
TENSILE TEST AND STATIC
FATIGUE AT INTERMEDIATE
TEMPERATURE AFTER IMPACT
DAMAGE.
WED-1_ING_7.02-17
SIZE EFFECTS IN RECYCLED
THERMOPLASTIC CFRP FROM
ELECTRODYNAMIC FRAGMENTATION
Focus of this study is the investigation of the influences of fibre
loading, fibre orientation, fibre
length and voids on the mechanical characteristics of compression
and injection moulded lyocell fibre-reinforced polylactide (PLA)
composites.
A. Khan (Coventry University) Phil
Swanson (Coventry University)
The present work is aimed at
simulating the deformation behaviour of NCF prepregs with
meso/macro-scale modelling approaches in Abaqus/Explicit using the hypoelatic computational
model. The simulation results are
compared with experiments.
This paper describes the influence of variable inlet pressure on
the flow front position and velocities in a one dimensional vacuum infusion process. Analytical
models are derived for simulation
proposes.
For increasing content of hard
spherical inclusions, in-plane
permeability of a woven fabric is
measured to decrease if inclusion
diameter is smaller than the interbundle gap, while a non-monotonic relationship is observed for
larger inclusions.
Masahito Ueda (Nihon University)
Vu Manh Cuong (Nihon Univesrity) Akira Todoroki (Tokyo Institute
of Technology)
A CFRP laminate and a steel plate
were instantly fastened simultaneously using the self-piercing
rivet. Tensile tests of the single-lap joint specimens were performed to investigate the viability
of the mechanical fastener.
A new epoxidation method at RT
that exhibit a significant improvement of the interface between
the CF and the surrounding epoxy resin has been proposed and
verified by using a combination
of mechanical and spectroscopic methods.
WED-1_BRI_2.04-11
USING PAPER AS REINFORCEMENT MATERIAL IN THERMOPLASTIC COMPOSITES:
LAMINATE FABRICATION AND
CHARACTERIZATION
Martina Prambauer (Transfercenter für Kunststofftechnik GmbH)
Christian Paulik (Johannes Kepler
University Linz) Christoph Burgstaller (Transfercenter für Kunststofftechnik GmbH)
Cellulose based paper sheets
were used as a sustainable reinforcement material to produce
thermoplastic composites. A suitable mechanical property profile
was obtained making paper an
interesting alternative reinforcement for thermoplastic laminates.
WED-1_NAP_2.03-06
INTERPHASE MODIFICATION
BY TRANSCRYSTALLINITY
PROMOTION INDUCED BY SUPRAMOLECULAR ASSEMBLY IN
A HIGH PERFORMANCE THERMOPLASTIC COMPOSITE
Anaud Martin (Luxembourg Institute of Science and Technology
(LIST)) Frédéric Addiego (Luxembourg Institute of Science and
Technology (LIST)) Sarah Reinard
(Luxembourg Institute of Science
and Technology (LIST)) Grégory
Mertz (Luxembourg Institute of
Science and Technology (LIST))
Julien Bardon (Luxembourg Institute of Science and Technology
(LIST)) David Ruch (Luxembourg
Institute of Science and Technology (LIST))
This work addresses the fibre-matrix compatibilization of a PEEK
composite reinforced with pitchbased carbon fibre. An environmentally friendly methodology
was developed to modify interphase properties by pi-stacking
and electrostatic interactions.
WED-1_LON_5.01-07
NUMERICAL METHODS FOR
3D COMPRESSIVE RTM SIMULATIONS
Pierre Marquette (ESI Group)
Arnaud Dereims (ESI Group)
Takayuki Ogawa (ESI Group) Masatoshi Kobayashi (HONDA R&D)
This paper presents advanced numerical methods for 3D compressive compressive RTM simulations developped by ESI Group in
partnership with HONDA R&D.
WED-1_BOR_5.12-10
ONLINE DETECTION AND CATEGORISATION OF DEFECTS
ALONG CARBON FIBER PRODUCTION USING A HIGH RESOLUTION, HIGH WIDTH LINE
SCAN VISION SYSTEM
Steffen Geinitz (Fraunhofer ICT)
André Wedel (Fraunhofer ICT) Andreas Margraf (Fraunhofer ICT)
An optical system for the detection of fabrication defects during
carbon fibre production and
binder application is developed.
The system allows a large scan
width at high resolution, while
maintaining data transfer at a
minimum.
WED-1_STG_5.03-07
GEOMETRICAL INVESTIGATION FOR THE ELECTRICAL CHARACTERIZATION OF
T700/M21 CFRP COMPOSITE
DURING CURING
Sonia Sassi (Université de Technologie de Compiègne) Philippe
Marguerès (Université de Toulouse) M. Mounkaila (Équipe
Nano Ingénierie et Intégration
des Systèmes) Thierry Camps
(Équipe Nano Ingénierie et Intégration des Systèmes) Philippe
Olivier (Université de Toulouse)
In the aim to use the electrical
response of unidirectional CFRP
during curing, geometrical parameters should be measured and
correlated with each other both at
local and global scales taking into
account anisotropy and rheological transitions.
Pascal Reynaud (INSA de Lyon)
Nathalie Godin (INSA de Lyon)
Martin Picard (INSA de Lyon) Mohamed R‘Mili (INSA de Lyon) Gilbert Fantozzi (INSA de Lyon)
This paper discusses the tensile
resistance of an impact-damaged
SiC/SiC based ceramic composite.
As-received and impact-damaged
specimens were subjected to
static fatigue tests at 650°C and
450°C, with AE monitoring.
Maxime Roux (University of Applied Sciences and Arts Northwestern Switzerland) Nicolas
Eguemann (Cross Composite AG)
Lian Giger (Cross Composite AG)
Clemens Dransfeld (University of
Applied Sciences and Arts Northwestern Switzerland)
An approach is presented to
separate thermoplastic CFRPs
into fragments using high voltage
pulses through a method known
as electrodynamic fragmentation.
It was observed that smaller fragments considerably reduce the
statistical variations.
WED-1_ATH_1.02-06
INTRODUCING CELLULOSE
NANOCRYSTALS IN SHEET
MOLDING COMPOUND (SMC)
Automotive Forum
Nina Graupner (University of
Applied Sciences Bremen ) Jörg
Müssig (University of Applied Sciences Bremen)
Nikos Koutroumanis (Institute
of Chemical Engineering Sciences/Foundation of Research and
Technology Hellas) Anastasios
Manikas (FORTH/ICEHT) Panagiotis Nektarios Pappas (Institute
of Chemical Engineering Sciences/Foundation of Research and
Technology Hellas) Faidonas Petropoulos (Institute of Chemical
Engineering Sciences/Foundation
of Research and Technology Hellas) Lamprini Sygellou (Institute
of Chemical Engineering Sciences/Foundation of Research and
Technology Hellas) Costas Galiotis (Institute of Chemical Engineering Sciences/Foundation of
Research and Technology Hellas)
10:00
10:20
Amir Asadi (Georgia Institute of
Technology) Mark Miller (Georgia
Institute of Technology) Sanzida Sultana (Georgia Institute of
Technology) Robert Moon (Georgia Institute of Technology) Kyriaki Kalaitzidou (Georgia Institute
of Technology)
Cellulose nanocrystals (CNC) are
dispersed in the epoxy matrix prior to use in sheet molding compound (SMC) manufacturing line
to enhance the mechanical properties of the SMC composites.
55
Munich (MUC)
WED-1_MUC_3.02-06
CHARACTERIZATION AND
MULTI-SCALE MODELING OF
THE TRANSVERSE COMPRESSION OF THICK RTM-PROCESSED UNI-DIRECTIONAL
SAMPLES
WED-1
10:40
Jeremy Chevalier (Université
Catholique de Louvain)
Y.A. Janssens (Universit´e
catholique de Louvain)
Pedro Camanho (University of
Porto) Thomas Pardoen (Université Catholique de Louvain)
Frederic Lani (Ucl)
Thick RTM-processed unidirectional samples were produced
and tested in transverse compression. The experimental results
were confronted to micro-mechanical analyses on RVE with
well identified constituents’ properties as input arguments.
Seville (SEV)
Venice (VEN)
Budapest (BUD)
Stockholm (STO)
Biarritz (BIA)
WED-1_SEV_3.22-03
ANALYSIS OF FAILURE MECHANISMS IN HYBRID CARBON
FIBRE/SELF-REINFORCED
POLYPROPYLENE
COMPOSITES
WED-1_VEN_3.18-12
NUMERICAL INVESTIGATION
OF BIO-INSPIRED TUBULAR
COMPOSITE TO STEEL JOINTS
WED-1_BUD_3.10-03
CHANGE OF GLASS FIBER
COMPOSITE CHARACTERISTIC DYNAMIC FATIGUE CURVE
DUE TO ACCUMULATED STATIC
FATIGUE DAMAGE.
WED-1_STO_3.20-03
ARRESTING CRACK IN COMPOSITE BONDED JOINT
USING FIBER-REINFORCEMENT-BASED DESIGN FEATURE
WED-1_BIA_3.08-03
CREEP BEHAVIOUR OF SHORT
FIBER REINFORCED COMPOSITES: EFFECTS OF FIBER ORIENTATION AND FIBER MATRIX
ADHESION
Marina Selezneva (KU Leuven)
Yentl Swolfs (KU Leuven)
Tomoko Ichikawa (Toray)
Ignaas Verpoest (KU Leuven)
Larissa Gorbatikh (KU Leuven)
Pseudo-ductile hybrids that
contain stiff but brittle webs of
discontinuous carbon fibres,
and tough but compliant plies
of self-reinforced polypropylene
were developed. Their tensile
properties and failure mechanisms are described in this paper.
Evangelos Ioannis Avgoulas (University of Cambridge)
Michael Sutcliffe (University of
Cambridge)
The idea of a transitional zone
of stiffness in tubular composite-to-steel joints was numerically
investigated. An optimisation procedure was carried out to identify
the material stiffness variation
which gives the joint with the
highest strength.
Reidar Anderssen (University
of Agder)
Ketil Bingslien (University of
Agder)
The DNV–OS-C501material model
does not address that the fatigue
curve may change due to accumulated static fatigue damage.
A model for the characteristic
fatigue curve as a function of the
time dependent stress rupture
damage is proposed.
11:00
Creep of short fiber reinforced
PP conventionally and push pull
processed was measured and
modeled using the EVC to predict
creep compliance from matrix
creep taking into account orientiation and length of fibers as well
as fiber matrix adhesion.
Laszlo Farkas (Siemens Industry
Software NV) Kristof Vanclooster
(Siemens Industry Software NV)
Hunor Erdelyi (Siemens Industry
Software NV) Ruben Sevenois
(Ghent University)
Stepan Lomov (KU Leuven)
Tadashi Naito (HONDA R&D)
Yuta Urushiyama (HONDA R&D)
Wim Van Paepegem (Ghent University)
WED-1_BRU_2.12-03
COMPRESSIVE BEHAVIOR UNDER FIRE EXPOSURE OF CARBON FIBERS POLYPHENYLENE
SULFIDE COMPOSITES
FOR AERONAUTICAL
APPLICATIONS
Mohamed-Ali Maaroufi (Université et INSA de Rouen) Yann Carpier (Université et INSA de Rouen)
Benoit Vieille (INSA Rouen )
Alexis Coppalle (Université et
INSA de Rouen) Fabrice Barbe
(Université et INSA de Rouen)
This contribution demonstrates
the different steps of a Virtual
Material Characterization (VMC)
process applied for the prediction
of elastic properties of a real meso-scale composite geometry.
The influence of fire exposure on
compressive behaviors of carbon
fibers woven-ply Polyphenylene
Sulfide (PPS) has been investigated. Compression tests under
one-sided heat flux or after prior
fire exposure, as well as creep
test, have been performed.
WEDNESDAY
3.02 Fracture and Damage - Lamina Level (3/5)
3.22 Ductile and Pseudo-ductile
Composites (2/4)
3.18 Hybrid Materials and Structures (4/4)
3.10 Fatigue of Composites (2/6)
3.20 Joining and Joints (2/6)
3.08 Short Fibre Reinforced Thermoplastics (2/4)
3.16 Fibre, Resin and Laminate
Design for Optimized Performance and Manufacture (1/3)
2.12 Lightning Strike, Fire Behavior and Fire Retardance/Resistance of Composites (2/3)
WED-2_MUC_3.02-07
DAMAGE REPRESENTATION
AND DAMAGE EVOLUTION FOR
LINEAR VISCOELASTIC UD
COMPOSITE MATERIAL
WED-2_SEV_3.22-04
AVOIDING FREE EDGE DELAMINATION IN QUASI-ISOTROPIC PSEUDO-DUCTILE HYBRID
LAMINATES – BY MATERIAL
DISPERSION OR LAYER ANGLE
DISPERSION?
WED-2_VEN_3.18-13
NUMERICAL SIMULATION OF
WELDABLE METALLIC FORCE
TRANSMISSION POINTS IN
FIBRE REINFORCED THERMOPLASTICS (FRTP)
WED-2_BUD_3.10-04
DAMAGE EVOLUTION IN
GLASS FIBRE REINFORCED
COMPOSITES
WED-2_STO_3.20-04
A STUDY OF PHYSICAL AND
MECHANICAL PROPERTIES OF
A NANOMODIFIED THERMOPLASTIC ADHESIVE IN NORMAL AND ACCELERATED AGEING CONDITIONS
WED-2_BIA_3.08-04
FATIGUE MECHANISMS IN
SHORT GLASS FIBRE REINFORCED THERMOPLASTIC: IN
SITU X-RAY MICROTOMOGRAPHY OBSERVATIONS AND MICROSTRUCTURE MODELLING
WED-2_RHO_3.16-01
OPTIBLESS - AN OPENSOURCE TOOLBOX FOR THE
OPTIMISATION OF BLENDED
STACKING SEQUENCES
WED-2_BRU_2.12-04
DAMAGE ANALYSIS FOR
THERMAL LOADING INDUCED
BY LASER IMPACT IN EPOXY
COMPOSITE LAMINATE
Raffaele Ciardiello (Politecnico di
Torino) Giovanni Belingardi (Politecnico di Torino)
Brunetto Martorana (Centro
Ricerche Fiat S.C.p.A.) Domenico
Fondacaro (Centro Ricerche Fiat
S.C.p.A.) Valentina Brunella (University of Torino)
Héloïse Rolland (I2M - Arts et
Métiers ParisTech)
Nicolas Saintier (I2M - Arts et
Métiers ParisTech)
Charles Mareau (LAMPA - Arts et
Métiers ParisTech)
Gilles Robert (Solvay Engineering Plastics)
Terence Macquart (Bristol University)
Cédric Huchette (ONERA-The
French aerospace Lab)
Gillian Leplat (ONERA-The French
aerospace Lab)
Valentin Biasi (The French Aerospace Lab Toulouse)
An innovative technology, based
on magneto sensitive nanoparticles dispersed in hot melt adhesive (HMA), has been studied in
order to reduce the cycle time of
a vehicle and to allow for the recycling at the vehicle end of life.
X-ray microtomography has been
used in situ to observe the fatigue
mechanisms in the SGFR Polyamide 6,6. The stress field induced
by the microstructure has been
evaluated with numerical computation.
WED-2_STO_3.20-05
A PROGRESSIVE DAMAGE
MODEL FOR BOLTED JOINTS IN
THREE-DIMENSIONAL WOVEN
CARBON COMPOSITES SUBJECTED TO SINGLE-BOLT, DOUBLE-SHEAR LOADING
WED-2_BIA_3.08-05
FATIGUE STRENGTH OF STAMPABLE SHORT CARBON FIBER
REINFORCED THERMOPLASTIC
COMPOSITE
Fei Xu (University of Nottingham)
Arthur Jones (University of Nottingham)
Shuguang Li (University of Nottingham)
WED-2
Damage representation and damage evolution law for linear viscoelastic UD composites are built
in this paper. A simple example is
made to explain how to use this
damage model.
WED-2_MUC_3.02-08
EXPERIMENTAL AND NUMERICAL INVESTIGATIONS INTO
DAMAGE MECHANISMS OF
CFRP COMPOSITES UNDER
OFF-AXIS COMPRESSION
Fan Yang (Northwestern Polytechnical University)
Yazhi Li (Northwestern Polytechnical University)
Yan Li (Northwestern Polytechnical University)
This paper presents an experimental investigation of CFRP
specimens under off-axis compression. To reproduce the experimental observations, a computational method including a
newly developed plastic model is
illustrated.
56
Interlocked continuous fibers
introduced in adhesive layer
bridged crack and suppressed
its propagation. Mode II fracture
toughness tripled compared to
specimen without arrester. New
manufacturing method for robust
arresting was also demonstrated.
Bernhard Moeginger (Hochschule
Bonn-Rhein-Sieg )
B. Hausnerova (Tomas Bata University in Zlin)
WED-1_RHO_3.05-20
VIRTUAL MATERIAL CHARACTERIZATION PROCESS FOR
COMPOSITE MATERIALS: AN
INDUSTRIAL SOLUTION
Bruges (BRU)
Coffee Break
11:30
11:50
Shu Minakuchi (University of
Tokyo)
Nobuo Takeda (University of
Tokyo)
Rhodes (RHO)
Meisam Jalalvand (University
of Bristol)
Mohamad Fotouhi (Amirkabir University of Technology)
Gergely Czel (University of
Bristol)
Michael Wisnom (University of
Bristol)
Most hybrid material studies
to date have been focused on
Uni-Directional (UD) laminates.
This paper presents two different
strategies of hybridisation for
multi-directional laminates and
show which one is less susceptible to free-edge delamination.
WED-2_SEV_3.22-05
DEMONSTRATION OF PSEUDO-DUCTILITY IN QUASI-ISOTROPIC LAMINATES COMPRISING THIN-PLY UD CARBON/
EPOXY HYBRID SUB-LAMINATES
Gergely Czel (University of
Bristol)
Tamás Rév (University of Bristol)
Meisam Jalalvand (University
of Bristol)
M. Fotouhi (University of Bristol)
Michael Wisnom (University of
Bristol)
Tensile response of QI hybrid
laminates were studied. It was
confirmed that the ply fragmentation mechanism can be transferred to multi-directional laminates. Notch-insensitivity was
demonstrated by locally active ply
fragmentation.
Arne Kunze (Stiftung Institut für
Werkstofftechnik)
F. Jansen (Faserinstitut Bremen)
Axel von Hehl (Stiftung Institut
für Werkstofftechnik)
This paper describes the mechanical design and numerical simulation of spot weldable organic
sheets – components equipped
with so called welding patches
– on coupon level. Different geometrics are developed, compared
to each other an evaluated.
WED-2_VEN_3.18-14
OPTIMISED THERMOSET
MATRIX SYSTEMS FOR THE
MANUFACTURING OF SHEETMETAL-FRP-HYBRID-STRUCTURES BY AN OPTIMISED
RESIN TRANSFER MOULDING
PROCESS
Christian Lauter (University of Paderborn) Bamend Sanitther (University of Paderborn) Zheng Wang
(University of Paderborn) Thomas
Troester (University of Paderborn)
Hybrid materials are a promising
approach for lightweight design.
Current research focusses on optimised thermoset resins and resin
transfer moulding processes. Due
to this efforts, for example cycle
times and costs can be reduced
effectively.
Steffen Stelzer (Montanuniversitaet Leoben)
René Rieser (Montanuniversitaet
Leoben)
Gerald Pinter (Montanuniversitaet Leoben)
Glass fibre reinforced epoxy composites with various stacking sequences are subjected to fatigue
loading. The stiffness degradation
of the samples is recorded via
cyclic tensile tests and correlated
to damage initiation and propagation.
WED-2_BUD_3.10-05
EFFICIENT MICRO-MECHANICAL MULTIAXIAL FATIGUE
TESTING AND MODELLING
FOR GFRP LAMINATES
Jens Ammitzbøll Glud (Aalborg
University)
Janice Dulieu-Barton (University
of Southampton)
Douglas Thomson (University of
Manitoba)
Lars Christian Terndrup Overgaard (Aalborg University)
A micro-mechanical multiaxial
fatigue model for predicting the
layerwise crack density evolution
in laminated composites.
Kyle Warren (Albany Engineered
Composites)
Harun Bayraktar (Albany Engineered Composites)
Roberto Lopez-Anido (University
of Maine)
Senthil Vel (University of Maine)
This paper explores a first-pass
progressive damage model for a
3D woven aerospace composite
single-bolt, double-shear joint. A
mesoscale approach was adopted
to separately consider the failure
response of impregnated tows
from surrounding matrix.
Masamichi Kawai (University of
Tsukuba)
Shogo Funaki (University of
Tsukuba)
Ichiro Taketa (Toray) Noriyuki Hirano (Toray)
The fatigue behavior and its temperature dependence of stampable short carbon fiber reinforced polyamide composite are
examined. Applicability of the
anisomorphic constant fatigue
life diagram approach is also
evaluated.
A free open-source toolbox for the
optimisation of blended stacking
sequences is presented (https://
github.com/TMacquart/OptiBLESS). The toolbox capabilities
and methodology are detailed
and successfully applied to an optimisation problem.
WED-2_RHO_3.16-02
AUTOMATED DESIGN APPROACH AND POTENTIAL ASSESSMENT OF COMPOSITE
STRUCTURES: FAST ANALYTICAL ENGINEERING TOOL FOR
MULTIPLE LOAD CASES
Dennis Zink (University of Stuttgart)
Christoph Awe (University of
Stuttgart)
Peter Middendorf (University of
Stuttgart)
An alternative analytical evaluation of preferable fiber orientations is presented in this paper.
The algorithm computes best fit
material orientations based on
principal stresses from multiple
load cases and evaluates potential for FRP designs.
The objective of this paper is to
understand the damage scenario
due to thermal loading in composite laminate. Thanks to an
original experimental device and
microscopic observation, the onset of delamination due to laser
impact is discussed.
WED-2_BRU_2.12-05
EVALUATION OF LIGHTNING
RESISTANCE OF CHOPPED
CARBON FIBER TAPE REINFORCED THERMOPLASTICS
Shinichiro Yamashita (University
of Tokyo)
Takeo Sonehara (Shoden Corporation)
Jun Takahashi (University of
Tokyo)
Kazumasa Kawabe (Industrial
Technology of Fukui Prefecture)
Tetsuhiko Murakami (Industrial
Technology of Fukui Prefecture)
A simulated lightning current was
applied to chopped carbon fiber
tape reinforced thermoplastics,
which is a kind of ROS made by
water dispersed prepreg tape.
The damage behavior was characterized with high-speed camera
and 3D measuring macroscope.
Naples (NAP)
WED-1_BRI_2.04-12
MECHANICAL AND ACOUSTIC
BEHAVIOUR OF POROSITY
CONTROLLED BIOCOMPOSITE
WED-1_NAP_2.03-07
INVESTIGATION OF THE SIZING BEHAVIOR OF CARBON
FIBERS BY SINGLE FIBER DIP
COATING EXPERIMENTS
Justin Merotte (EcoTechnilin SAS)
Antoine Le Duigou (LIMATB-UBS)
Alain Bourmaud (LIMATB-UBS)
Karim Behlouli (EcoTechnilin SAS)
Christophe Baley (LIMATB-UBS)
This paper studies the influence
of a large range of porosity contents on the microstructure of
biocomposites made from flax/
PP nonwovens and correlates it to
acoustic and tensile properties.
Eva Laukmanis (University of
Augsburg)
Tobias Neid (University of Augsburg)
Judith Moosburger-Will (University of Augsburg)
Siegfried Horn (University of
Augsburg)
Single filament sizing experiments are performed on carbon
fibers with variable degrees of
surface activation using two epoxy based sizing solutions. The
evaluation of AFM images of the
sized fibers permits an investigation of the sizing behavior.
London (LON)
WED-1_LON_5.01-08
NUMERICAL MODELLING OF
FLOW AND HEAT TRANSFER
FOR THE COMPRESSION RTM
PROCESS WITH A FAST-CURE
EPOXY
Andre Keller (University of Applied Sciences and Arts Northwestern Switzerland)
Clemens Dransfeld (University of
Applied Sciences and Arts Northwestern Switzerland) Kunal Masania (ETH Zürich)
The aim of this study is to investigate the exothermic reaction, the
resulting temperature gradient
and degree of cure variation over
the thickness of a composite plate
during impregnation and cure
with a fast-cure epoxy.
Bordeaux (BOR)
WED-1_BOR_5.12-11
QUALITY ASSURANCE SYSTEM
FOR MONITORING THE ONLINE RESIN IMPREGNATION
DURING FIBER-TOW-PLACEMENT: A REVIEW OF THE
STATE-OF-THE-ART APPROACHES
Stefan Mittmann (Airbus Group
Innovations) Christian Weimer
(Airbus Group Innovations)
A. Friedberger (Airbus Group Innovations) Andreas Gessler (Airbus Group Innovations)
In this study an overview of the
state-of-the-art approaches, their
potentials and weak points as
well as possible solutions for the
measurement of the resin content of carbon fiber tows will be
presented.
Stuttgart (STG)
Augsburg (AUG)
WED-1_STG_5.03-08
MEASUREMENTS OF DIMENSIONAL VARIATIONS OF SMC
COMPOSITES DURING THE
CURING CYCLE
WED-1_AUG_4.03-03
AN AUTOMATED IMAGE PROCESSING ALGORITHM TO DETERMINE WRINKLE CHARACTERISTICS FROM B-SCANS
Romain Cardinaud (Plastic Omnium)
Mael Peron (University of Nantes)
Vincent Sobotka (University of
Nantes) Nicolas Boyard (University of Nantes) Steven Le Corre
(University of Nantes)
Mustafa Sager (Plastic Omnium)
Anhadjeet Sandhu (University
of Exeter)
Timothy Dodwell (University of
Exeter)
Richard Butler (University of
Bath)
The dimensional variations of a
SMC material are investigated in
using a standard linear dilatometer, the PVT-α mould and a new
specific device called HADDOC,
in order to determine the thermal
expansion and chemical shrinkage coefficients.
The paper presents an automated
algorithm which extracts wrinkle
characteristics from B-Scan images of large composite parts typically from low resolution images.
The method is validated using
a synthetic wrinkle with known
characteristics.
Ingolstadt (ING)
Athens (ATH)
WED-1_ING_7.02-18
THE HIGH PERFORMANCE
DISCONTINUOUS FIBRE (HIPERDIF) TECHNOLOGY FOR
CONSISTENT QUALITY CONTROL OF RECLAIMED CARBON
FIBRES
WED-1_ATH_1.02-07
RAISING MAXIMUM DESIGN
STRAIN ENVELOPES OF FIBER
RESIN COMPOSITE PRIMARY STRUCTURAL ELEMENTS
SUPPORTED BY A LOAD AND
OPERATIONAL MONITORING
SYSTEM
Marco Luigi Longana (University
of Bristol)
HaNa Yu (University of Bristol)
Meisam Jalalvand (University
of Bristol)
Kevin Potter (University of
Bristol)
This paper describes the ongoing
development of an alternative,
improved method for the quality
control of reclaimed carbon fibres based on specimens manufactured with the HiPerDiF (High
Performance Discontinuous Fibre)
method.
Stefan Herrmann (csi entwicklungstechnik GmbH)
Jörg Wellnitz (Technische Hochschule Ingolstadt)
Niels Modler (Technical University of Dresden)
The author describes the motivation for and implications of the introduction of an Operational Monitoring system to the automobile
Body in White structure. A framework for Operational Monitoring
and safe increase of the design
strain is explained.
10:40
Automotive Forum
Brighton (BRI)
11:00
Coffee Break
2.03 Interfaces and Interphases (3/3)
5.01 Process Simulation I - Draping & LCM (3/3)
5.03 Experimental Methods for
Process Characterisation (3/3)
4.03 Structural Health Monitoring
and Control (2/3)
WED-2_BRI_2.04-13
MECHANICAL BEHAVIOUR
ANALYSIS OF FIBRE/MATRIX
INTERFACE IN HEMP/EPOXY
COMPOSITES BY DIGITAL IMAGE CORRELATION
WED-2_NAP_2.03-08
STRAIN MONITORING OF
GLASS FIBER EPOXY COMPOSITES USING A REDUCED
GRAPHENE OXIDE DEPOSITED
INTERPHASE
WED-2_STG_5.03-09
NON-DESTRUCTIVE EVALUATION OF PREFORM INJECTABILITY AND COMPRESSIBILITY
FOR QUALITY ASSESSMENT IN
A PRODUCTION ENVIRONMENT
WED-2_AUG_4.03-04
CRACK GROWTH MONITORING
AT CFRP ADHESIVE BONDINGS
Amélie Perrier (Institute Pprime)
Fabienne Touchard (P‘ Institute)
Laurence Chocinski-Arnault (Institute Pprime)
David Mellier (Institute Pprime)
Haroon Mahmood (University
of Trento)
Massimo Bersani (MiNALab Laboratory, Bruno Kessler Foundation)
Alessandro Pegoretti (University
of Trento)
WED-2_LON_5.01-09
SENSITIVITY OF MATERIAL
PROPERTIES ON THE WRINKLING BEHAVIOR OF UD-TAPE
LAMINATES ANALYZED BY FINITE ELEMENT FORMING SIMULATION
WED-2_ING_7.01-01
DEVELOPMENT OF AN LCATOOL FOR THE COMPOSITES-INDUSTRY - EUCIA
ECO CALCULATOR: CRADLE
TO GATE LCA FOR COMPOSITE PARTS
This work concentrates on strain
field measurements around a
hemp yarn in eco-composites under tensile loading by using DIC
method. The local constitutive behaviours of the different constituents of the specimens could be
approached by such analysis.
WED-2_BRI_2.04-14
MECHANICAL PROPERTIES
OF TOUGH PLASMA TREATED
FLAX FIBRE THERMOPLASTIC
COMPOSITES
Wilhelm Woigk (Institute of Polymer Engineering, FHNW)
J. Rion (Bcomp AG)
C. Fuentes (EMPA) Carlos Fuentes
(KU Leuven)
Aart Van Vuure (KU Leuven)
Kunal Masania (ETH Zürich)
Clemens Dransfeld (University of
Applied Sciences and Arts Northwestern Switzerland)
This paper presents the mechanical testing results of elementary
flax fibres, thermoplastic and
thermoset matrix materials along
with a particular focus on the
performance of untreated and
plasma treated flax fibre/co-polyoxymethylene composites.
A method of inducing strain monitoring phenomenon in composites is presented in this paper.
By electrophoretically depositing
graphene nanosheets on glass fibers, a conductive interphase is
created between the glass fibers
and the epoxy matrix.
WED-2_NAP_2.03-09
THE ROLE OF THE EPOXY RESIN: CURING AGENT RATIO ON
COMPOSITE INTERFACIAL
STRENGTH AND THERMAL
PERFORMANCE
Ross Forbes Minty (University
of Strathclyde)
James Thomason (University of
Strathclyde)
Liu Yang (University of
Strathclyde)
This paper focuses on analyzing
the interfacial and thermal properties of an epoxy resin glass fibre
composite using the microbond
technique and thermal analysis
to gauge the influence of residual
stress at the interface with varying system ratios.
Dominik Doerr (Karlsruhe Institute of Technology) Tobias
Joppich (Fraunhofer ICT) Fabian
Schirmaier (Karlsruhe Institute of
Technology) Tobias Mosthaf (Karlsruhe Institute of Technology) Luise Kärger (Karlsruhe Institute of
Technology) Frank Henning (Karlsruhe Institute of Technology)
Methods for Finite Element forming simulation are presented, validated and subsequently applied
to a virtual sensitivity study, to investigate the influence of material properties on wrinkling behavior and fiber reorientation.
WED-2_LON_5.01-10
SIMULATION METHOD FOR
THERMOFORMING OF APPLICATION-ORIENTED TEXTILE
STRUCTURES AND MULTI-LAYERED REINFORCED ORGANOSHEET
Dominic Schommer (Institute for
Composite Materials)
Miro Duhovic (Institute for Composite Materials)
Christian Goergen (Institute for
Composite Materials)
Joachim Hausmann (Institute for
Composite Materials)
This paper shows new improvements on a hybrid simulation
method for modeling the thermoforming process for organosheet
materials which make it possible
to use the method for all customized reinforcement structures.
Tino Hermann (University of
Auckland)
Simon Bickerton (University of
Auckland)
S. van Oosterom (University of
Auckland)
G. Lamb (University of Auckland)
Thomas Henke (BMW Group)
An innovative non-destructive
method is presented for assessment of the compressibility and
injectability of textiles, stacks,
and preforms. Fast non-destructive tests are required to support
the industrialisation of FRP manufacture.
Wolfgang Adebahr (University of
Stuttgart)
Markus Rahammer (Institut für
Kunststofftechnik)
Ronny Sachse (University of
Stuttgart)
Peter Middendorf (University of
Stuttgart)
Marc Kreutzbruck (University of
Stuttgart)
This paper includes non-destructive crack growth monitoring via
air-coupled ultrasound and thermography.
Jaap van der Woude (EuCIA)
Ir. Ben Drogt (EuCIA)
R. Frassine (EuCIA)
A web-based tool to calculate
Eco Impact Factors as defined by
ILCD for composites from cradle
to gate and can be used for futher
calculations. The methodology
has followed the LCA Guidelines
as described in ISO 14040 and
14044 standards.
WED-2_STG_5.03-10
ON THE THERMAL BEHAVIOR
OF THERMOPLASTIC LAMINATES DURING TRANSFER
– A NOVEL WIND-TUNNEL APPROACH
WED-2_AUG_4.03-05
DEVELOPMENT OF DATA ACQUISITION DEVICES FOR
ELECTRICAL IMPEDANCE TOMOGRAPHY OF COMPOSITE
MATERIALS
WED-2_ING_7.01-02
EFFECT OF DIFFERENT TECHNOLOGICAL AND ENERGY
SUPPLY RELATED MEASURES
ON THE PRIMARY ENERGY DEMAND OF CFRP PRODUCTION
Daniel Kugele (Karlsruhe Institute
of Technology)
Julius Rausch (Audi AG)
Jochen Kriegseis (Karlsruhe Institute of Technology)
Kai Gündisch (Karlsruhe Institute
of Technology)
Luise Kärger (Karlsruhe Institute
of Technology)
Frank Henning (Karlsruhe Institute of Technology)
Sandra Gschoßmann (Johannes
Kepler University Linz)
Yingjun Zhao (Johannes Kepler
University Linz)
Martin Schagerl (Johannes Kepler
University Linz)
Daniel Wehner (Fraunhofer IBP)
Andrea Hohmann (Fraunhofer
ICT) Bernhard Schwab (Fraunhofer ICT) Stefan Albrecht (Fraunhofer IBP) Robert Ilg (Fraunhofer
IBP) K. Sedlbauer (Fraunhofer
IBP) P. Leistner (Fraunhofer IBP)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
The transfer step of the molten
laminates has an important influence on the temperature distribution of the laminates and
is therefore investigated in the
present study.
This contribution presents a simple and low-cost possibility to
build a stand-alone data acquisition device to collect boundary
voltage responses for EIT evaluation as a potential application
for SHM using piezoresistive thin
film sensors.
The paper investigates on the
major levers for optimizing energy use in CFRP production and
processing in order to support the
various actors involved along the
different process routes in CFRP
manufacturing.
1.02 Ground-Based Transportation (3/4)
WED-2_ATH_1.02-08
MAI SKELETT / MULTISKELETT A NOVEL DESIGN PHILOSOPHY BASED ON TRUSS
ELEMENTS
11:30
Thomas Hogger (BMW AG)
Paul Winkler (P+Z Engineering
GmbH)
Tobias Wehrkamp-Richter (Technical University of Munich / Institute for Carbon Composites)
A novel design philosophy was
developed with the project MAI
Skelett and Multiskelett, which
features an assembly of unidirectional fiber reinforced thermoplastic truss elements in combination with a thermoplastic
injection molding.
WED-2_ATH_1.02-09
MANUFACTURING CFRP SANDWICH PARTS USING WET
MOULDING
Automotive Forum
2.04 Bio Composites (4/6)
7.01 Sustainability - Resource Efficient Technologies and Supply
Chains (1/1)
11:50
Jan Schütte (BMW Group)
Jürgen Hoffmann (BMW AG)
Elisabeth Ladstätter (Technical
University of Munich / Institute
for Carbon Composites)
This paper deals with the influence of core compression and
temperature profile on the properties of CFRP sandwich parts
manufactured via wet moulding.
The results demonstrate the feasibility of manufacturing sandwich
parts in an automated process.
57
Munich (MUC)
WED-2_MUC_3.02-09
MATRIX MICROCRACKING AND
SPLITS MODELING IN LAMINATED COMPOSITES
12:10
Hadrien Bainier (ENS Cachan)
David Néron (ENS Cachan)
Pierre Ladevèze (ENS Cachan)
In this paper a new approach
to tackle with transverse cracking localisation is proposed and
the feasibility of the method is
proved. Due to industrial requirements, the detection/computation
strategy for splits has been implemented in SAMCEF.
Seville (SEV)
WED-2_SEV_3.22-06
ENABLING LARGE STRETCHABILITY IN ASSEMBLIES OF
NANOCARBONS THROUGH
PRESTRESSING
Tsu-Wei Chou (University of Delaware)
Jiali Yu (University of Delaware)
CNT fibers, graphene laminates,
and CNT films are used to form
stretchable composites which
exhibit excellent flexibility and
stretchability and showed stable
electrical and electrochemical
performances during repeated
stretching cycles.
Venice (VEN)
Budapest (BUD)
WED-2_VEN_3.18-15
SIMULATION CHAIN FOR METAL-CFRP SANDWICH MATERIALS IN THE DEVELOPMENT
PROCESS OF AN AUTOMOTIVE
FLOOR STRUCTURE
WED-2_BUD_3.10-06
DAMAGE INITIATION CRITERION OF CFRP UNDER VIBRATION FATIGUE TESTING:
EXPERIMENTS AND MODEL
VALIDATION
WED-2_STO_3.20-06
INFLUENCE OF THE SPECIMEN
WIDTH ON THE EXPERIMENTAL MEASUREMENT OF THE
COHESIVE LAW USING THE
J-INTEGRAL APPROACH
Thorolf Schulte (RWTH Aachen
Univeristy) Sebastian Wiedemann
(inpro Innovationsgesellschaft für
fortgeschrittene Produktionssysteme in der Fahrzeugindustrie
mbH) Michael Gerkens (University of Paderborn) Christopher
Schmal (University of Paderborn)
Christian Paul (ThyssenKrupp
AG TechCenter Carbon Composites) L. Eckstein (RWTH Aachen
Univeristy) Frank Meissen (inpro
Innovationsgesellschaft für fortgeschrittene Produktionssysteme
in der Fahrzeugindustrie mbH)
Gerson Meschut (University of
Paderborn)
Fabrizio Magi (University of
Bristol)
Dario Di Maio (University of
Bristol)
Ibrahim Sever (Rolls-Royce Plc)
Mario Cabello (IK4-IKERLAN
Technology Research Centre)
Javier Zurbitu (IK4-IKERLAN Technology Research Centre)
Albert Turon (AMADE, Universidad de Girona)
Carlos Sarrado (AMADE, Universidad de Girona)
Jordi Renart (AMADE, Universidad
de Girona)
Félix Martínez (IK4-IKERLAN
Technology Research Centre)
This manuscript shows the evidence of a clean critical event
in the fatigue life of a composite
laminate, suggesting a novel failure criterion to be used for vibration fatigue testing. Experimental
results are reported as well as FE
simulations.
In this paper simulation models
for novel steel-CFRP and magnesium-CFRP sandwich materials
with thermoplastic matrix are
being presented. The models are
used to develop a lightweight automotive floor structure fulfilling
various safety requirements.
WED-2_MUC_3.02-10
MICROMECHANICS-BASED
VALIDATION OF A MESOMODEL FOR MATRIX NONLINEARITY
WED-2
WEDNESDAY
12:30
12:50
Frans Van der Meer (Delft University of Technology)
The performance of a mesomechanical constitutive law for composites is assessed through comparison with micromechanical
model results.
WED-2_MUC_3.02-11
MODELLING OF KINK-BAND
GROWTH BASED ON THE GEOMETRICALLY NON-LINEAR
THEORY
Ragnar Larsson (Chalmers University of Technology)
Mohammad Rouhi (Swerea SICOMP) Renaud Gutkin (Swerea
SICOMP)
We propose an efficient continuum damage model, able to predict
fibre/matrix shear failure in a
UD ply under compression. A key
feature is to consider the geometrical fibre kinking instability on
the macro-level based on a finite
strain formulation.
13:10
58
WED-2_SEV_3.22-07
USE OF FRICTION MECHANISM FOR PSEUDO DUCTILITY
IN COMPOSITES
Omar Bacarreza (Imperial College
London)
Raul Munoz (Imperial College
London)
Paul Robinson (Imperial College
London)
Milo Shaffer (Imperial College
London)
WED-2_VEN_3.18-16
ANALYSIS OF OUT-OF-PLANE
BEHAVIOUR OF BOLTED
JOINTS ASSEMBLIES FOR
THERMOPLASTIC LAMINATES
Romain Hamonou (Ecole Centrale
de Nantes)
Laurent Gornet (Institut de Recherche en Génie Civil et Mécanique)
Frédéric Jacquemin (Institut de
Recherche en Génie Civil et Mécanique)
Stéphane Auger (CETIM)
A novel method of introducing pseudo-ductility in brittle
materials by means of friction
mechanisms has been investigated. Tensile behaviour of the
selected configuration indicates
that the ductile behaviour can be
achieved.
In this paper, an analysis of outof-plane behavior of bolted joints
assemblies for thermoplastic materials is presented.
WED-2_SEV_3.22-08
HYBRID EFFECT OF CARBON/
GLASS COMPOSITES AS A
FUNCTION OF THE STRENGTH
DISTRIBUTION OF ALIGNED
SHORT CARBON FIBRES
WED-2_VEN_3.18-17
SURFACE MODIFIED STEEL/
EPOXY-BASED CFRP HYBRID
LAMINATES UNDER MODE I,
MODE II AND MIXED-MODE
LOAD CONDITIONS
HaNa Yu (University of Bristol)
Marco Luigi Longana (University
of Bristol)
Yentl Swolfs (KU Leuven)
Michael Wisnom (University of
Bristol)
Kevin Potter (University of
Bristol)
Andreas Monden (University of
Augsburg)
Markus Sause (University of
Augsburg)
Siegfried Horn (University of
Augsburg)
The effect of the strength distribution of aligned discontinuous
carbon layers on the enhancement in strain at failure in interlaminated carbon/glass hybrid
composites was investigated experimentally, and compared with
an analytical model.
Stockholm (STO)
CFRP/steel hybrid laminates were
investigated to quantify mode I,
mode II and mixed-mode fracture
toughness via DCB, ENF and MMB
tests. Surface treatments applied
to the steel surfaces resulted in
individual fracture toughness
values.
WED-2_BUD_3.10-07
ENVIRONMENTAL EFFECTS
ON THE BENDING FATIGUE OF
LAMINATED COMPOSITES:
EXPERIMENTAL AND
MODELLING APPROACHES
Maozhou Meng (Plymouth University)
Huirong Le (University of Derby)
Stephen Grove (University of
Derby)
MD Jahir Rizvi (Plymouth University)
This paper investigates the effects
of sea water immersion on the fatigue failure of CFRP composites.
Dry and wet specimens were tested in a variety of bending conditions following the ISO standard.
A FEA model was developed to
simulate the problem.
WED-2_BUD_3.10-08
FATIGUE STRENGTH OF A
MULTIAXIAL LOADED SHORT
GLASS FIBRE REINFORCED
POLYAMIDE
Andreas Primetzhofer (Montanuniversitaet Leoben)
Andreas Mösenbacher (Montanuniversitaet Leoben)
Gerald Pinter (Montanuniversitaet Leoben)
The applicability of the multiaxial
Gough and Pollard fatigue criteria
was examined for short fibre reinforced plastic. Although basically
applicable, a distinctive manufacturing influence was determined.
The influence of the specimen
width in the procedures to obtain
cohesive laws by J-integral method using an advanced analytical
DCB model with a coupled cohesive damage is studied and a
new correction function has been
proposed.
WED-2_STO_3.20-07
COMPARATIVE ANALYSIS OF
IN-PLANE AND OUT-OF-PLANE
MECHANICAL BEHAVIOR OF
SPOT-WELDED AND MECHANICALLY FASTENED JOINTS
IN THERMOPLASTIC COMPOSITES
Tian Zhao (Delft University of
Technology) Genevieve Palardy
(HS Delft) Irene Fernandez Villegas (Delft University of Technology) Calvin Rans (Delft University
of Technology) Rinze Benedictus
(Delft University of Technology)
Biarritz (BIA)
WED-2_BIA_3.08-06
HIGH STRENGTH JOINING OF
SHORT FIBRE REINFORCED
POLYMERS AND METALS
WITHOUT THE USE OF ADHESIVES IN COMPLEX JUNCTIONS
Kim Kose (inpro Innovationsgesellschaft für fortgeschrittene Produktionssysteme in der
Fahrzeugindustrie mbH)
Fred Eggers (Daimler AG)
Birgit Faisst (TRUMPF Laser- und
Systemtechnik GmbH)
Leo Hoffmann (Neue Materialien
Fürth GmbH)
Joining of polymers to metals with
a joining technique based on a
finely-structured metal surface
using only one-sided contact.
Results are are similar to conventionally joined hybrids and stays
nearly unchanged after thermal
and corrosive pre-loads.
WED-2_BIA_3.08-07
IMPACT PERFORMANCE IN
PP WITH PVA FIBER
REINFORCEMENT
Claudia Pretschuh (Wood K plus
- Competence Centre for Wood
Composites and Wood Chemistry)
Lukas Sobczak (Borealis Polyolefine GmbH)
Dietmar Salaberger (University of
Applied Sciences Upper Austria)
Michael Jerabek (Borealis Polyolefine GmbH)
Thomas Lummerstorfer (Borealis
Polyolefine GmbH)
The in-plane and out-of-plane
mechanical behaviour of ultrasonically spot-welded and mechanically fastened joints are characterized through double-lap shear
and pull-through tests. Fractography is used to investigate the failure mechanisms of joints.
PVA fibers are acting as very efficient impact modifier for PP homopolymers. Very high notched
impact strength values can be obtained, even at -20°C. Further the
effect of coupling on the fiber-pull
out behavior was presented.
WED-2_STO_3.20-08
COMPARISON OF THE ADHESIVE DYNAMIC SHEAR STRESS
HOMOGENEITY BETWEEN
METALLIC AND COMPOSITE
SUBSTRATES OF A DOUBLE
LAP JOINT.
WED-2_BIA_3.08-08
INTERFACIAL DAMAGE AND
LOAD TRANSFER MODELING
IN SHORT FIBER REINFORCED
COMPOSITES
Georges Challita (Lebanese University)
Rachad Hazimeh (Lebanese University)
Khaled Khalil (Lebanese University)
Ramzi Othman (King Abdulaziz
University)
This paper deals with a numerical method to design a double
lap bonded structure with glass/
PEEK substrates where a better
dynamic shear stress homogeneity if the adhesive joint is offered.
Comparison with steel substrates
is carried out.
Lunch Break
Kevin Bonnay (ENSAM )
Nicolas Despringre (ENSAM )
Yves Chemisky (Arts et Métiers
ParisTech)
Fodil Meraghni (Arts et Métiers
ParisTech)
Based on experimental observations for SFRC,an interfaciale
damage law and an adapted shear
lag model is proposed and validated. Using a single set of parameters,the model is able to reproduce the behavior of an SFRC
under various loading directions.
Rhodes (RHO)
Bruges (BRU)
WED-2_RHO_3.16-03
DIGITPRO – VALIDATING THE
LINK BETWEEN BRAIDING
SIMULATION, INFILTRATION
AND MECHANICAL TESTING
WED-2_BRU_2.12-06
EXPERIMENTAL STUDY OF THE
BURNING BEHAVIOUR OF A
COMMERCIAL CARBON FIBRE
COMPOSITE MATERIAL USED
IN HIGH PRESSURE VESSELS
Jörg Dittmann (University of
Stuttgart)
Daniel Michaelis (University of
Stuttgart)
Patrick Böhler (University of
Stuttgart)
Peter Middendorf (University of
Stuttgart)
Juan P. Hidalgo (University of
Edinburgh)
Paolo Pironi (University of Edinburgh)
Rory M. Hadden (University of
Edinburgh)
Stephen Welch (University of
Edinburgh)
A braided digital prototype is presented. The main goal is to connect the various input and output
files of different software tools, to
establish a user-friendly readability via a HDF5 file format as well
as reducing the product design
cycle time.
This paper presents an analysis
on the charring rate experienced
by a commercial CFRP material
used to construct composite pressure vessels for hydrogen storage
and transport applications.
WED-2_RHO_3.16-04
THE INFLUENCE OF FIBRE
ANGLE AND RESIN PROPERTIES ON CONSOLIDATION OF
CURVED LAMINATES
WED-2_BRU_2.12-07
HIGH TEMPERATURE
COMPRESSIVE PROPERTIES
OF CARBON EPOXY COMPOSITE LAMINATES
Kevin Johnson (University of Bath)
Samuel Erland (University of
Bath)
Richard Butler (University of
Bath)
Julien Berthe (ONERA-The French
aerospace Lab)
Gérald Portemont (ONERA-The
French aerospace Lab)
Alain Deudon (ONERA-The French
aerospace Lab)
Matthieu Ragonet (ONERA-The
French aerospace Lab)
A simple theoretical model is
compared with experimental
tests at different temperatures
and pressures. Pressure-induced
shear does not significantly prevent consolidation in curved laminates with differing fibre angles
and stacking sequences.
WED-2_RHO_3.16-05
INTEGRATED SIMULATION
APPROACH FOR STRUCTURAL ANALYSIS OF COMPOSITE
COMPONENTS CONSIDERING
PROCESS SIMULATION DATA
Natalie Mayer (Technical University of Munich) Jens Prowe (Airbus Group Innovations)
Tamas Havar (Airbus Group Innovations) Roland Hinterhölzl
(Technical University of Munich
/ Institute for Carbon Composites)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
The aim in this study is to include
virtual manufacturing process
data in the structural finite element analysis on a component
level. The main challenge here is
to provide an as-built, more realistic structural simulation for
composite components.
This paper is dedicated to the experimental study of the evolution
of the mechanical compressive
properties of CRFP with the increase of the temperature from
below Tg to above Tg.
Naples (NAP)
London (LON)
WED-2_BRI_2.04-15
MICROSTRUCTURE AND MECHANICAL PROPERTIES OF
HEMP TECHNICAL FIBRES FOR
COMPOSITE APPLICATIONS
BY MICRO COMPUTED TOMOGRAPHY AND DIGITAL IMAGE CORRELATION
WED-2_NAP_2.03-10
THERMOPLASTIC SURFACES
FOR JOINING OF THERMOSET
CFRP – EFFECT OF CURING
CYCLE ON INTERFACIAL BOND
STRENGTH
WED-2_LON_5.01-11
THE COMPRESSION BEHAVIOUR OF NON-CRIMP FABRICS COMPOSITES FOR AUTOMOTIVE APPLICATIONS
Carlos Fuentes (KU Leuven)
Pieter Willekens (KU Leuven)
Niels Hendrikx (KU Leuven)
Benjamin Lemmens (KU Leuven)
Joren Claeys (KU Leuven)
Jorma Croughs (Campus GroupT,
KULeuven)
Christine Dupont-Gillain (Université Catholique de Louvain)
David Seveno (KU Leuven)
Aart Van Vuure (KU Leuven)
Strain mapping analysis was used
for evaluating the local mechanical behaviour heterogeneity
along technical hemp fibres, revealing 3 types of tensile stressstrain curves depending on their
strength, and a complex pattern
of strain concentrations.
WED-2_BRI_2.04-16
MICROSTRUCTURE, QUANTIFICATION AND CONTROL OF
DISLOCATIONS IN BAST-TYPE
PLANT FIBRES
Bo Madsen (Technical University
of Denmark) Catherine L. Lester
(Technical University of Denmark)
Ulrich A. Mortensen (Technical
University of Denmark)
Mustafa Aslan (Karadeniz Technical University)
Hans Lilholt (Technical University
of Denmark)
Dislocations in plant fibres are
investigated by using microscope
and image analysis techniques.
Straining of fibres, together with
wetting, is applied to change the
dislocation content. The effect
is evaluated by tensile testing
of fibres.
Philipp Bruckbauer (Technical
University of Munich / Institute
for Carbon Composites)
Frank Weiland (Airbus Helicopters)
Uwe Beier (Airbus Helicopters)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
Modesto Mateos (Mondragon
Unibertsitatea)
Maider Baskaran (Mondragon
Unibertsitatea)
A. Aizpuru (Mondragon Unibertsitatea)
Laurentzi Aretxabaleta (Mondragon Unibertsitatea)
Jon Aurrekoetxea (Mondragon
Unibertsitatea)
This paper investigates the influence of curing cycles on the development of thermoplastic-thermoset interphases. A strong
dependency of the heating rate
on the interphase size and the
shear strength of CFRP specimen
could be found.
The relaxation of a dry (no binder) 50k carbon fibre Non-Crimp
Fabric (NCF) under maximum
compression stage has been characterised for 3 different fibre volumes and fabric layer quantities
by the use of fractional models.
WED-2_NAP_2.03-11
TUNING INTERFACIAL ADHESION AND ITS IMPACT
ON REINFORCING MECHANISMS FOR MONOLAYER
GRAPHENE-POLYMER NANOCOMPOSITES
WED-2_LON_5.01-12
VISUALIZATION EXPERIMENT
AND NUMERICAL SIMULATION
OF LIQUID IMPREGNATION
WITH RACE-TRACKING FOR
RTM PROCESS
Luqi Liu (National Center for
Nanoscience and Technology,
CHINA) Guorui Wang (National
Center for Nanoscience and Technology, CHINA) Zhaohe Dai (National Center for Nanoscience and
Technology, CHINA) Zhong Zhang
(National Center for Nanoscience
and Technology, CHINA)
Based on in situ Raman spectroscopy, surface functionalization
is employed to tune interfacial
adhesion of graphene/PMMA interface and clarify impacts of interfacial chemistry on reinforcing
mechanisms for the first time.
Bordeaux (BOR)
Stuttgart (STG)
Augsburg (AUG)
Ingolstadt (ING)
WED-2_STG_5.03-11
ONE STEP TO COMPARABLE
OFF-PLANE PERMEABILITY RESULTS – AN IMPROVED MEASURING METHOD FOR TRANSVERSE PERMEABILITY AND
COMPACTION BEHAVIOR OF
TEXTILE FIBER MATERIALS
WED-2_AUG_4.03-06
EXPERIMENTS ON DISTRIBUTED FIBER OPTIC SENSING
FOR FATIGUE CRACK GROWTH
MONITORING OF COMPOSITE
ADHESIVELY BONDED SINGLE
LAP JOINTS
WED-2_ING_7.01-03
ENERGY EFFICIENCY AND
ECOLOGICAL BENEFITS OF A
SELF-HEATED CFRP-TOOL DESIGNED FOR RESIN TRANSFER
MOULDING
Robert Graupner (Fraunhofer ICT)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
For off-plane permeability measurement methods a homogeneous FVC is assumed. The
investigation shows a contrary
result when metal structures with
holes are used. In consequence
the permeability values are assumed to dependent on the used
equipment.
WED-2_STG_5.03-12
ROBUST OPTICAL 2D PERMEABILITY CHARACTERIZATION
OF REINFORCING FABRICS
Ewald Fauster (Montanuniversitaet Leoben)
Harald Grössing (Montanuniversitaet Leoben)
Ralf Schledjewski (Montanuniversitaet Leoben)
K. Fellner (Polymer Competence
Center Leoben GmbH)
Masatoshi Kobayashi (HONDA
R&D) Koji Dan (HONDA R&D)
Tsuyoshi Baba (HONDA R&D)
Koshiro Yamakawa (Toray)
Ryo Nakano (Toray)
In order to predict impregnation
with race-tracking, we proposed
3D numerical simulation by the
Darcy equation and variable fluid
conductance equation that could
reproduce the Stokes flow. This
method could represent actual
complicated impregnation.
A new approach for compensating
glass plate deformation in optical
2D permeability characterization involving a combination of
image and data processing steps
with structural FEM simulation
in a fully automated evaluation
procedure.
Andrea Bernasconi (Politecnico
di Milano)
Michele Carboni (Politecnico di
Milano)
Riccardo Galeazzi (Politecnico
di Milano)
Andrea Gianneo (Politecnico di
Milano)
In this work, the Optical Backscatter Reflectometry (OBR) distributed sensing technique is used
to monitor fatigue crack growth
in composite adhesive bonded
joints. Results are referenced
with measurements by phased array ultrasonic testing.
WED-2_AUG_4.03-07
INVESTIGATION OF EFFECT
OF CNT WEIGHT FRACTION ON
SMART PAINT FOR STRUCTURAL HEALTH MONITORING OF
CARBON FIBER REINFORCED
COMPOSITES
Yagmur Atescan (Istanbul Technical University)
Hülya Cebeci (Istanbul Technical
University)
In this study, carbon nanotube
(CNTs) polymer nanocomposites
(CNT-PNCs) as a smart paint were
used as a strain sensor to follow
the mechanical deformations of
the structures.
WED-2_AUG_4.03-08
INVESTIGATION OF IMPACT
INDUCED DAMAGE ON COMPOSITE PLATES BY ANALYSING THE RADIATED AERIAL
ACOUSTIC SIGNAL
Elisa Arikan (Fraunhofer ICT) Andrea Hohmann (Fraunhofer ICT)
Philipp Kammerhofer (Technical
University of Munich / Institute
for Carbon Composites) Matti
Reppe (Qpoint Composite GmbH)
Niklas Remer (Airbus Helicopters)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
Athens (ATH)
WED-2_ATH_1.02-10
MANUFACTURING HIGH PERFORMANCE COMPOSITES USING SOLID EPOXY RESINS
Henry Maples (University of
Vienna)
Thomas James (Formax) Alexander Bismarck (University of
Vienna)
A low cost composite manufacturing technique using solid epoxy
resins is described.
The study shows that a self-heated CFRP tool leads to energy savings of 87 % during the use-phase.
Combined with a RTM process a
cycle time reduction of 41 % can
be achieved. The LCA identifies
a saving potential in all regarded
impact categories.
WED-2_ING_7.01-04
OPTIMISATION OF SOLVOLYSIS FOR RECYCLING CARBON
FIBRE REINFORCED COMPOSITES
WED-2_ATH_1.02-11
NOVEL LIGHTWEIGHT COMPOSITE GRIPPER CONCEPTS
FOR AUTOMOTIVE MANUFACTURING
Matthew Keith (University of Birmingham)
Geraldine Oliveux (University of
Birmingham)
Gary Leeke (Cranfield University)
Niklas Minsch (Daimler AG)
Farbod Nosrat Nezami (CIKONI
composiets innovation)
Thomas Gereke (Technical University of Dresden)
Chokri Cherif (Technical University of Dresden)
Recycling CFRCs is investigated
with an acetone/water solvent to
determine optimum parameters
such as reaction time, loading
and post-solvolysis steps. Results
show a resin removal of 98% is
possible with an energy of 19
MJ.kg-1 of fibre recovered.
12:10
Automotive Forum
Brighton (BRI)
12:30
A novel approach to valuate concepts for supporting structures
made of fiber-reinforced composites, as a main constituent of
gripper tooling in the range of
automotive handling operations,
is presented.
12:50
William Caster (Univ. Bourgogne
Franche-Comté)
N. Massé (Univ. Bourgogne
Franche-Comté)
Jérôme Rousseau (Univ. Bourgogne Franche-Comté)
Stephane Fontaine (Univ. Bourgogne Franche-Comté)
This study is the analysis of the
acoustic radiation caused by an
impact on a composite structure
and the use of signal entropy for
non-contact detection and evaluation of the induced damage.
Lunch Break
13:10
59
Munich (MUC)
14:10
Seville (SEV)
Venice (VEN)
Budapest (BUD)
Keynote lecture 9 (MUC) by Silvestre Pinho, Imperial College London, UK: MECHANICS OF COMPOSITES:
FROM NANO TO MACRO AND FROM SIMULATION TO ACTUALLY ENGINEERING NEW MICROSTRUCTURES
Stockholm (STO)
Biarritz (BIA)
Rhodes (RHO)
Bruges (BRU)
Keynote lecture 10 (BIA) by Alexander Bismarck and Paul Robinson, Imperial College London and University of Vienna, UK and
Austria: EXPLOITING COMPOSITE INTERPHASES: CONTROLLABLE STIFFNESS, SHAPE-MEMORY AND REPAIR
15:00
Poster Session 2
15:00
3.02 Fracture and Damage - Lamina Level (4/5)
3.22 Ductile and Pseudo-ductile
Composites (3/4)
3.17 Sandwich Structures (1/4)
3.10 Fatigue of Composites (3/6)
3.20 Joining and Joints (3/6)
3.08 Short Fibre Reinforced Thermoplastics (3/4)
WED-3_MUC_3.02-12
ON A COUPLED ELASTO-PLASTIC DAMAGE MODEL FOR FIBER REINFORCED LAMINATES
WED-3_SEV_3.22-09
HYBRID UHMWPE/CARBON
MICROBRAIDS FOR DUCTILE
COMPOSITES
WED-3_VEN_3.17-01
AN UNDULATED SANDWICH
PLATE WITH A NEW CORE
Swaroop Gaddikere Nagaraja
(Montanuniversitaet Leoben)
Clara Schuecker (Montanuniversitaet Leoben)
Stefano Del Rosso (Imperial College London)
Lorenzo Iannucci (Imperial College London)
Paul Curtis (Defence Science and
Technology Laboratory)
Paul Robinson (Imperial College
London)
WED-3_BUD_3.10-09
FATIGUE TESTING OF QUASI-UD AND CROSS-PLY REINFORCED COMPOSITES: THE
RECENT ACHIEVEMENTS OF
TEST SPECIMEN GENERATION
WED-3_STO_3.20-09
COMPOSITE ROBUST BONDING – AUTOMATION OF SURFACE PREPARATION PROCESS
FOR STRUCTURAL BONDING
APPLICATIONS
WED-3_BIA_3.08-09
INVESTIGATING FIBRE ORIENTATION, DISPERSION AND
LENGTH REDUCTION IN LONG
GLASS FIBRE REINFORCED
INJECTION MOULDING
Samuli Korkiakoski (Aalto University)
Mikko Kanerva (Aalto University)
Olli Saarela (Aalto University)
Ana Amate-Illescas (Airbus Operations)
Benjamin Lindenberger (Airbus
Operations)
Jose Sánchez-Gómez (Airbus Operations)
Fin Caton-Rose (University of
Bradford)
Peter Hine (University of Leeds)
WED-3_MUC_3.02-13
QUASI-STATIC DELAMINATION
MODEL FOR LAYERED ANISOTROPIC MATERIAL STRUCTURES
15:20
Filip Kšiňan (Technical University
of Kosice)
Roman Vodička (Technical University of Kosice)
WED-3
WEDNESDAY
A coupled Elasto-Plastic Damage
model is proposed that captures
non-linear material effects at the
length scale of individual plies.
The constitutive framework is
thermodynamically consistent
and adapted to a plane stress
state.
15:40
Mathematical model for numerical solution of damage in layered
anisotropic material structures
has been developed. The concept
of solution is based on quasi-static rate-dependent evolution of
the delamination process at the
interface.
WED-3_MUC_3.02-14
STIFFNESS PREDICTION OF
DAMAGED LAMINATES BASED
ON THE CONCEPT OF LAMINATE EFFECTIVE STIFFNESS
Janis Varna (Lulea University of
Technology)
Mohamed Loukil (Swerea SICOMP)
The concept of the effective stiffness of a unidirectional layer with
intralaminar cracks is revisited
performing 3-D FEM analysis of
laminates, showing that in normalized form the effective stiffness is almost independent on the
material and lay-up.
60
This paper presents a comprehensive series of mechanical tests
performed on core-filled hybrid
microbraids and composites manufactured using those microbraids
as the reinforcing phase.
WED-3_SEV_3.22-10
HYDROGEL STATE IMPREGNATION OF CELLULOSE FIBRE-PHENOL COMPOSITES:
EFFECTS OF FIBRE SIZE DISTRIBUTION
Yvonne Aitomäki (Lulea University of Technology)
Mikael Westin (Lulea University of
Technology)
Kristiina Oksman (Lulea University of Technology)
Cellulose nanofibres networks
produce films that have high
stiffness and strength but are
difficult to impregnate. Good impregnation is found if the CNF
networks are impregnated in a
hydrogel state.
WED-3_SEV_3.22-11
MECHANICAL BEHAVIOR OF
ANGLE-PLY LAMINATES
Ulrich Mandel (Technical University of Munich / Institute for Carbon Composites) Robin Taubert
(Technical University of Munich /
Institute for Carbon Composites)
Roland Hinterhölzl (Technical
University of Munich / Institute
for Carbon Composites)
A mechanism based nonlinear
constitutive model for composite
laminates is proposed. For validation, experimental results of angle-ply tension tests with varying
of axis-angles and ply thicknesses
are presented.
Anil Uzal (Bogazici University)
Fazil Onder Sonmez (Bogazici
University)
Nuri Ersoy (Bogazici University)
Kenan Cinar (Bogazici University)
A new core design is introduced.
Failure behavior is investigated via three-point bending tests.
Both the core and the face sheets
are made of E-glass-fiber-reinforced epoxy. Acoustic emission
method is used to detect the progression of damage.
WED-3_VEN_3.17-02
COLUMN INTERACTION IN
TUFTED SANDWICH STRUCTURES UNDER EDGEWISE
LOADING
Jamie Hartley (University of
Bristol)
Gavin Tse (University of Bristol)
James Kratz (University of Bristol)
Carwyn Ward (University of
Bristol)
Ivana Partridge (University of
Bristol)
An experimental test method
is used to characterise the behaviour of tufts within a sandwich
structure under edgewise crush
loading. Video tracking highlights drifting and stacking of the
tufts, as well as secondary failure
mechanisms taking place.
Tension–tension fatigue testing
results, damage development and
final failure mode were studied
using advanced dog-bone specimens for a quasi-UD GFRP laminate reinforced with NCFs and an
aramid-fibre reinforced cross-ply
laminate.
WED-3_BUD_3.10-10
FULLY REVERSED MODE II
FATIGUE TESTING
Rico Kühlewind (University of
Bristol)
Luiz Kawashita (University of
Bristol)
Stephen Hallett (University of
Bristol)
For a better understanding of
composite fatigue, work on fully
reversed mode II delamination
growth was conducted. A test
method was introduced. Test results are presented and compared
to non reversed fatigue cases. Future challenges are identified.
WED-3_BIA_3.08-10
MICROSTRUCTURE AND
FRACTURE PROPERTIES OF
GLASS FIBER-REINFORCED
POLYAMIDE 66 WITH HIGH
VOLUME FRACTION OF
GLASS FIBERS
Wei Xiong (Imperial College
London)
Xichang Wang (Beijing Aeronautical Manufacturing Technology
Research Institute)
Xiaoang Cao (First Aircraft Design
Institute)
John P. Dear (Imperial College
London)
Bamber Blackman (Imperial College London)
Kazuya Mizumoto (YKK corporation)
Kazuaki Sanada (Toyama Prefectural University)
Makoto Kawagoe (Toyama Prefectural University)
Mai Mizubayashi (YKK corporation)
WED-3_BUD_3.10-11
IN-SITU FATIGUE DAMAGE
ASSESSMENT OF CARBON
FIBRE REINFORCED POLYMER STRUCTURES USING
ADVANCED EXPERIMENTAL
TECHNIQUES
Marianne John (Fraunhofer IMWS)
Ralf Schlimper (Fraunhofer IWM)
Christian Mudra (Airbus Operations)
Nikolaos Eleftheroglou (Delft University of Technology)
D. S. Zarouchas (Delft University
of Technology)
Theodoros Loutas (University
of Patras)
This study focused on the in-situ
fatigue damage assessment of
open-hole carbon/epoxy coupons
using Acoustic Emission (AE) and
Digital Image Correlation (DIC)
techniques.
This paper presents the experimental results of fracture properties of injection-molded glass fiber/polyamide 66 composites.The
amount of glass fibers was varied
from 17 to 41 vol%.
2.12 Lightning Strike, Fire Behavior and Fire Retardance/Resistance of Composites (3/3)
WED-3_BRU_2.12-08
INFLUENCE OF THE NUMBER,
WEIGHT AND STACKING
SEQUENCE OF METAL LAYERS
ON THE FIRE PROPERTIES
OF HYBRID CFRP-METAL
COMPOSITES
Imke Roese-Koerner (German
Aerospace Center) Benjamin
Schuh (German Aerospace Center) Torsten Rinneberg Peter Wierach (German Aerospace Center)
An investigation into the orientation, distribution and breakage of
short and long fibres during the
injection moulding process.
WED-3_STO_3.20-10
EFFECT OF THE SURFI-SCULPT
DENSITY ON THE STATIC
MECHANICAL PROPERTIES
OF COMPOSITE-METAL JOINTS
STRENGTHENED BY
SURFI-SCULPT
The effect of the surfi-sculpt
protrusion density on the static
mechanical properties of composite-metal joints strengthened
by surfi-sculpt is experimentally studied.
WED-3_VEN_3.17-03
DEFORMATION AND FAILURE
BEHAVIOR OF PRE-DAMAGED FOAM-CORE SANDWICH
STRUCTURES IN A
FOUR-POINT BENDING
CONFIGURATION
This article deals with the investigation of the mechanical behavior of predamaged foam-core
sandwich structures. A four-point
bending fixture was used to investigate the mechanical behavior
of a sandwich structure with low
velocity-impact damage.
The aim of this work was to find
possible alternatives for automation of surface treatment processes for CFRP composite structures
prior to structural bonding that
can replace current manual operations.
Industry Session 2
An investigation of improved material solutions to mitigate fire,
smoke and fumes in the event of
a fire is presented. A number of
hybrid CFRP-metal composites
are inspected and their fire properties focusing on smoke production are evaluated.
WED-3_BRU_2.12-09
LIGHTNING DAMAGE SUPPRESSION IN A CFRP WITH
A POLYANILINE-BASED CONDUCTIVE THERMOSET MATRIX
Presentations of the Sponsoring and Exhibiting Companies
Yoshiyasu Hirano (Japan Aerospace Exploration Agency) Tomohiro Yokozeki (University of
Tokyo) Yuichi Ishida (Japan Aerospace Exploration Agency) Teruya
Goto, Tatsuhiro Takahashi (Yamagata University) Danna Wian,
Shoji Itho (Mitsubishi Plastics
Inc.) Toshio Ogasawara (Tokyo
University of Agriculture and
Technology) Masaru Ishibashi
(GSI Creos Corporation)
The effectiveness of lightning
damage suppression by a carbon-fiber-reinforced polymer
(CFRP) laminate with polyaniline
(PANI)-based conductive thermosetting resin was experimentally
demonstrated by lightning tests
and residual strength tests.
WED-3_STO_3.20-11
EFFECTS OF POST-TREATMENT
FOR META-ARAMID NANOFIBER MATS ON THE ADHESION
STRENGTH OF EPOXY ADHESIVE JOINTS
WED-3_BIA_3.08-11
A MORPHOLOGICAL INDICATOR FOR THE DESCRIPTION
OF THE SHORT-FIBER POSITION EFFECT ON THE BEHAVIOR OF A PERIODIC RVE
WED-3_BRU_2.12-10
MODELLING OF THE DEGRADATION OF A CARBON-EPOXY
COMPOSITE MATERIAL SUBMITTED TO A COUPLED THERMO-MECHANICAL LOAD
Seungyoon On (Chonbuk National
University)
Seong Su Kim (Chonbuk National
University)
François Rasselet (Safran Composites) Sébastien Joannès (MINES
ParisTech) Emilie Roche (Safran
Composites) Sébastien Pautard
(Safran Composites) Jacques Renard (MINES ParisTech)
Camille Mercadé (Institute
Pprime)
Damien Halm (Institute Pprime)
Thomas Rogaume (Université de
Poitiers)
In this work, effects of post-treatment for meta-aramid nanofiber
mats on the adhesion strength of
epoxy adhesive joints were investigated.
Definition of a local indicator
based on the first neighbor distance in a short-fiber reinforced
unidirectional composite allowing
the comprehension of the effect
of the microstructure on the global elastic behavior and to shortlist of accurate RVEs.
In this paper, a model coupling
thermal degradation, heat transfers and mechanical behavior is
presented, to model the phenomena occuring when a carbon-epoxy composite material is both
submitted to high heat fluxes and
to a mechanical loading.
Brighton (BRI)
Naples (NAP)
London (LON)
Bordeaux (BOR)
Keynote lecture 11 (NAP) by Paolo Ermanni, ETH Zürich, Switzerland:
MULTIFUNCTIONAL COMPOSITE STRUCTURES FOR MORPHING APPLICATIONS
Stuttgart (STG)
Augsburg (AUG)
Ingolstadt (ING)
Athens (ATH)
14:10
Keynote lecture 12 (STG) by Pascal Hubert, McGill University Montreal, Canada:
TOWARDS SUSTAINABLE MANUFACTURING OF COMPOSITE MATERIALS
15:00
Poster Session 2
2.04 Bio Composites (5/6)
2.01 Fibers (1/4)
5.13 Additive Manufacturing (1/2)
1.05 Civil Engineering (1/4)
5.04 Textile Composites (1/2)
4.03 Structural Health Monitoring
and Control (3/3)
6.02 Self-Healing and Bio-Inspired Designs (1/3)
1.02 Ground-Based Transportation (4/4)
WED-3_BRI_2.04-17
OPTIMIZED BAST FIBER REINFORCED POLYPROPYLENE FOR
AUTOMOTIVE APPLICATIONS
WED-3_NAP_2.01-01
COST EFFICIENT PRODUCTION
OF CARBON FIBRES
WED-3_LON_5.13-01
ADDITIVE MANUFACTURING
OF THERMOSETTING RESINS
Franz Pursche (Institute of Textilte Technology (ITA))
Thomas Gries (RWTH Aachen
University)
Gunnar Seide (RWTH Aachen
University)
Hilmar Koerner (Air Force Research Laboratory)
Sarah Izor (Air Force Research
Laboratory)
Ruel McKenzie (Air Force Research Laboratory)
WED-3_BOR_1.05-01
APPLICATION OF LATTICE
COMPOSITE STRUCTURES AS
REINFORCING ELEMENTS OF
CONCRETE COLUMNS
WED-3_STG_5.04-01
APPROACH TO CHARACTERIZE
THE PROCESS DEPENDING
MECHANICAL PROPERTIES
OF UD-BRAIDED CFRP
LAMINATES
WED-3_AUG_4.03-09
NONDESTRUCTIVE TESTING
OF COMPOSITES USING A
NONLINEAR ACOUSTIC SPECTROSCOPY METHOD
WED-3_ING_6.02-01
ARTIFICIALLY ROUGHENED MICROPLATELETS FOR
HIGH-PERFORMANCE BIOINSPIRED COMPOSITES
WED-3_ATH_1.02-12
TIME AND COST EFFECTIVE
HANDLING FOR BUILDING
UP CARBON FIBER TAILORED
BLANKS
Davide Carnelli (ETH Zürich)
Rafael Libanori (ETH Zürich)
Tobias P. Niebel (ETH Zürich)
Andre R. Studart (ETH Zürich)
Todays carbon fibre production is
very energy- and costintensive, by
which a further market penetration of carbon fibres is hindered.
This research work shows a method to reduce stabilization times
and therefore production cost of
carbon fibres.
The design of new high temperature thermosetting resins with
high crosslink densities enables
additive manufacturing of parts
with high service temperatures
and excellent thermo-oxidative
stability.
Sebastian Eckel, Fodil Meraghni,
Pascal Pomarede (Arts et Metiers
ParisTech) Nico Felicien Declercq (Georgia Tech Lorraine – G.W.
Woodruff School of Mechanical
Engineering)
Jia-Yang Du (Premium Aerotec
GmbH)
Hilmar Apmann (Premium Aerotec GmbH)
Markus Schmider (J. Schmalz
GmbH)
WED-3_NAP_2.01-02 CARBON
FIBRE WITH AND WITHOUT A
PROTECTIVE ULTRATHIN ALUMINA FILM GRAFTED WITH
CARBON NANOTUBES FOR HIERARCHICAL COMPOSITES OBSERVED BY PTYCHOGRAPHIC
X-RAY COMPUTED TOMOGRAPHY
WED-3_LON_5.13-02
ADDITIVE MANUFACTURING
OF LOCALLY RESONANT COMPOSITE METAMATERIALS
This paper deals both with the
influence of the processing conditions on the mechanical properties and with the mechanical
characterization of natural fiber
reinforced polymer composites
(NFRPC) with an area weight of
1700 g/m².
WED-3_BRI_2.04-18
PROCESSING BAMBOO FOR
STRUCTURAL COMPOSITES:
INFLUENCE OF PRESERVATIVE
TREATMENTS ON SURFACE
AND INTERFACE PROPERTIES
Darshil Upendra Shah (University
of Cambridge)
Bhavna Sharma (University of
Cambridge)
Michael H. Ramage (University of
Cambridge)
Engineered bamboo is being
increasingly explored for infrastructure applications. We study
the effects of two common preservation treatments, bleaching
and steaming, on dynamic surface
wettability and adhesive bonding
properties of laminated bamboo.
WED-3_BRI_2.04-19
SINGLE STEP FUNCTIONALISATION OF CELLULOSES
WITH DIFFERING DEGREES
OF REACTIVITY AS A ROUTE
FOR IN-SITU PRODUCTION OF
ALL-CELLULOSE NANOCOMPOSITES
Koon-Yang Lee (Imperial College
London)
Alexander Bismarck (University
of Vienna)
A method of manufacturing
all-cellulose nanocomposites using a single step functionalisation
of two different celluloses with
differing reactivities is presented.
Wojciech Szmyt (Institute of Polymer Engineering, FHNW) Samuel
Vogel (University of Applied Sciences and Arts Northwestern Switzerland) Mirko Holler, Ana Diaz,
Jens Gobrecht (Paul Scherrer Instiute) Michel Calame (University of
Basel) Clemens Dransfeld (University of Applied Sciences and Arts
Northwestern Switzerland)
Irfan Raza (Imperial Colege
London)
Lorenzo Iannucci (Imperial College London)
Paul Curtis (Defence Science and
Technology Laboratory)
A custom made multi-material
3D printer had been developed
which is design to manufacture
locally resonant type metamaterials.
In our present work we deliver
the observation of the CF with
and without a protective alumina
film grafted with CNTs utilising
ptychographic X-ray computed
tomography. We present a data
analysis methodology for iron
nanoparticle detection.
WED-3_NAP_2.01-03
EFFECT OF ROTATION BEHAVIOR ON MECHANICAL PROPERTIES OF MULTI-CELL TYPE
NATURAL FIBRE
WED-3_LON_5.13-03
CHARACTERIZATION OF COMPOSITES MADE BY ADDITIVE
LAYER MANUFACTURING
TECHNOLOGIES
Yuji Nitta (Ube National College
of Technology)
Koichi Goda (Yamaguchi University)
Jesús Justo Estebaranz (Universidad de Sevilla)
María José Mesa (Universidad
de Sevilla)
C. Brioso (Universidad de Sevilla) Luis Távara (Universidad de
Sevilla)
Federico París (Universidad de
Sevilla)
In this study was investigated the
relation between rotation behavior and fibre mechanical properties. Moreover, Influence of variation in microfibrillar angle on
Young’s modulus was explored for
a single cell fibre using the finite
element model.
Tensile and compression properties of composites made by additive layer manufacturing technologies are obtained. The properties
are compared with common prepreg and ALM materials.
Andrey Skleznev (CRISM)
Valery Vasiliev, Alexandr Razin
(CRISM)
Load-carrying capacity and stiffness of a concrete column with
composite lattice reinforcement
is studied experimentally. Numerical simulation of stress-strain
state of the concrete reinforced
with composite lattice structure
is presented.
WED-3_BOR_1.05-02
APPLICATION OF STEELGFRP HYBRID COMPOSITE TO
ASYMMETRIC CABLE-STAYED
BRIDGE FOR EMERGENCY DISASTER RELIEF
Fang-Yao Yeh (National Center
for Research on Earthquake Engineering)
K.C. Chang (National Taiwan
University)
Y.C. Sung (National Taiwan University)
This study develops an asymmetric cable-stayed temporary bridge
system for emergency disaster
relief. The proposed bridge can
be assembled within 6 hours, and
possesses the advantages of (1)
quick assembly, (2) DIY by residents, and (3) reusability.
WED-3_BOR_1.05-03
CARBON FIBER REINFORCED
COMPOSITES PROVED TO BE
VERY SUCCESSFUL IN CONSTRUCTION DURING A QUARTER OF A CENTURY
Urs Meier (EMPA)
Rolf Brönnimann (EMPA)
Peter Anderegg (EMPA)
Giovanni Terrasi (EMPA)
Masoud Motavalli (EMPA)
Christoph Czaderski (EMPA)
The application of carbon fiber
reinforced polymers (CFRP) in
civil engineering was before 1991
unknown. Today it is worldwide
well accepted and proved to be
very reliable.
Christian Metzner (Airbus Group
Innovations)
Daniel Gizik (Airbus Group Innovations)
Jörg Kaufmann (University of
Chemnitz)
Lothar Kroll (University of Chemnitz)
In this study a methodic for the
characterization of the process
depending mechanical properties
of unidirectional braided CFRP
laminates is presented.
The work describes an acoustic
method based on the damaged
material’s increased nonlinear
transmission behavior. Consequently, the nonlinearity indicates the damage. The aim is to
analyse and quantify the nonlinearity to measure the damage
severity.
WED-3_STG_5.04-02
ASSESSMENT OF COMPOSITES
REINFORCED WITH INNOVATIVE 3D WOVEN HOLLOW
FABRICS
WED-3_AUG_4.03-10
ONLINE-MONITORING OF
CARBON FIBER REINFORCED
PLASTICS USING SILVER
NANOPARTICLE BASED INK
Ruben Geerinck (University
Ghent)
Ives De Baere (UGent, Department of Materials Science and
Engineering)
Geert De Clercq (UGent, Department of Materials Science and
Engineering)
Jan Ivens (KU Leuven) Joris Degrieck (Ghent University)
Till Augustin (Technische Universität Hamburg-Harburg)
Hauke H. Langner
(Helmut-Schmidt-Universität,
Hamburg)
Vico Haverkamp
(Helmut-Schmidt-Universität,
Hamburg)
Bodo Fiedler (Technische Universität Hamburg-Harburg)
The development and production
of complex 3D woven fabrics and
their possibilities within composites with respect to production
and properties are explored.
Conductive paths of silver
nanoparticle based ink are ink-jet
printed on CFRP. Electrical resistance measurements allow for in
situ detection of delaminations
and surface cracks by measuring
through the material and along
the printed paths.
WED-3_STG_5.04-03
EXPERIMENTAL STUDY OF
THE TOW BUCKLING DEFECT.
TOWARDS THE DETERMINATION OF A MULTI-FACTOR
APPEARANCE CRITERION FOR
THE FORMING PROCESS SIMULATION.
Pierre Ouagne (ENI Tarbes/ Université Orléans) Christophe Tephany, Jean Gillibert (Université
Orléans) Damien Soulat (ENSAIT)
This paper deals with the measurement by fringe interferometry
of the tow buckle defect appearing during complex shape forming of fabric. The mechanisms
conditioning the appearance and
growth of the defect are related to
an occurrence criterion.
WED-3_AUG_4.03-11
ROBUST FAILURE PREDICTION
IN FIBER REINFORCED POLYMER RODS USING FREQUENCY ENTROPY OF CLUSTERED
ACOUSTIC EMISSION EVENTS
Mohammadhadi Shateri, Maha
Ghaib, Dagmar Svecova, Douglas
Thomson (University of Manitoba)
A procedure based on the frequency entropy of clustered
acoustic emission events is presented to determine when FRP
rods are near the failure. Results
show 40% and 60% of the ultimate load for GFRP and CFRP
respectively, as exceeded service load.
This study provides useful guidelines for the design and fabrication of tougher and lighter structural materials by focusing on the
role of geometrical interlocking
on the micron-scale mechanics
of platelet-reinforced bioinspired
composites.
WED-3_ING_6.02-02
BIOINSPIRED COMPOSITES
BY VACUUM ASSISTED MAGNETIC ALIGNMENT
Madeleine Grossman (ETH Zürich)
Florian Erni (ETH Zürich)
Florian Bouville (ETH Zürich)
Rafael Libanori (ETH Zürich)
Andre R. Studart (ETH Zürich)
A new processing technique for
making micro-structured ceramic
reinforced polymer matrix composites is explored as a tool for
building simultaneously strong
and tough composites that mimic
the biological composite nacre.
A new time and cost efficient process enables to build up tailored
blanks consisting of 15 different
patches within 90 seconds and
an accuracy of ±1 mm. Instead of
handling each patch individually,
stacks of patches are built beneath the endeffector.
WED-3_ATH_1.02-13
TOWARDS THERMOPLASTIC
CARBON FIBER REINFORCED
PLASTICS FOR THE AUTOMOTIVE INDUSTRY – THE NEED
FOR AND POTENTIALS OF FUSION BONDING AND HYBRIDIZATION.
Alex Schwingenschlögl (Technical
University of Munich / Institute
for Carbon Composites) Nikhil
Verghese (SABIC T&I Corporate Research & Development,
Composites) Philipp Bruckbauer
(Technical University of Munich /
Institute for Carbon Composites)
Stefan Ehard (Technical University of Munich / Institute for Carbon Composites) Klaus Drechsler
(Technical University of Munich
/ Institute for Carbon Composites)
15:20
Automotive Forum
Florian Gortner (Institute for
Composite Materials)
Luisa Medina (Institute for Composite Materials)
Peter Mitschang (Institute for
Composite Materials)
15:00
Currently available welding / fusion techniques for thermoplastic
composite and hybrid joining are
assessed for their suitability in for
the automotive environment.
WED-3_ING_6.02-03
MAGNETICALLY REINFORCED
MULTI-STABLE SHELLS FOR
BIO-INSPIRED SHAPE ADAPTATION
Andres F. Arrieta (Purdue University)
Jascha U. Schmied (ETH Zürich)
Hortense Le Ferrand (ETH Zürich)
Paolo Ermanni (ETH Zürich)
Andre R. Studart (ETH Zürich)
Bio-inspired hierarchical architectures using magnetically aligned
micro-reinforcements are used
to produce fast shape adaptation
in composite systems based on
structural multi-stability. Manufacturing procedures and experimental specimens are shown.
WED-3_ATH_1.02-14
TRANSLAMINAR FRACTURE
TOUGHNESS CHARACTERISATION OF CARBON FIBRE REINFORCED THERMOPLASTIC
COMPOSITES
15:40
Muhammad Ameerul Atrash
Mohsin (Imperial College London)
Lorenzo Iannucci (Imperial College London)
Emile Greenhalgh (Imperial College London)
This paper presents the translaminar fracture toughness of NCF
biaxial carbon/thermoplastic
T700/PA6.6 composite system.
The fracture toughness test was
performed using compact tension
specimens which were optimised
through finite element modelling.
61
Munich (MUC)
WED-3_MUC_3.02-15
STRAIN RATE DEPENDENT
DEFORMATION AND DAMAGE
BEHAVIOUR OF TEXTILEREINFORCED THERMOPLASTIC
COMPOSITES
62
Matthias Zscheyge (Fraunhofer
IMWS)
Mike Gude (Technical University
of Dresden)
Robert Boehm (Technical University of Dresden)
Werner Hufenbach (Technical
University of Dresden)
A novel experimental procedure
is developed for thermoplastic composites for determining
elastic, inelastic and viscoelastic
quantities with only one test. Additionally, a viscoelastic-plastic
damage model is developed and
implemented in ABAQUS.
WED-3_SEV_3.22-12
OPEN-HOLE RESPONSE OF
PSEUDO-DUCTILE THIN-PLY
ANGLE-PLY LAMINATES
Xun Wu (University of Bristol)
Jonathan Fuller (University of
Bristol)
Michael Wisnom (University of
Bristol)
This paper presents the response of pseudo-ductile thinply angle-ply laminates under
open-hole tensile loading. The
reduction of notch sensitivity
within these laminates is also
discussed.
Venice (VEN)
Budapest (BUD)
WED-3_VEN_3.17-04
DESIGN AND AXIAL COMPRESSION OF COMPOSITE SANDWICH CYLINDERICAL SHELLS
WITH CORRUGATED CORES
WED-3_BUD_3.10-12
INFLUENCE OF MICRO-VOIDS
ON THE FATIGUE BEHAVIOUR
OF GLASS/EPOXY LAMINATES
Jian Xiong (Harbin Institute of
Technology)
Ying Gao (Harbin Institute of
Technology)
L. N. Feng (Harbin Institute of
Technology)
We present a new manufacturing technique for fabricating all
composite cylindrical sandwich
structures with corrugated cores
and axial compression of two
types of corrugated cylinderical
shells have been conducted.
Lucio Maragoni (University of
Padova)
Paolo Andrea Carraro (University
of Padova)
Marino Quaresimin (University
of Padova)
The influence of micro-sized
voids on fatigue damage evolution is investigated on [0/90]
S and [0/45/0/-45]S laminates,
highlighting a large detrimental
effect on both stacking sequences even for small void contents.
16:20
Stockholm (STO)
WED-3_STO_3.20-12
EXPERIMENTAL AND NUMERICAL STUDY OF ADHESIVELY BONDED TUBULAR SPECIMENS UNDER UNIAXIAL
LOADING
Sonia Braiek (University of Monastir)
Redouane Zitoune (University of
Toulouse)
Ated Ben Khalifa (University of
Monastir)
Mondher Zidi (University of
Monastir)
The aim of this paper is the study
experimentally and numericaly
the mechanical behavior and the
damage propagation of E glass
fiber/ Vinylester resin adhesively bonded tube using Araldite
adhesive.
Biarritz (BIA)
Rhodes (RHO)
WED-3_BIA_3.08-12
PARTICLE LEVEL SIMULATION
OF FIBER MOTION TO DETERMINE CONTINUUM BASED
MODELS PARAMETERS FOR
FIBER ORIENTATION PREDICTION
Kai Yi (Aerospace Research Institute of Materials & Processing
Technology)
Wan Wan Jusoh (Newcastle University)
Geoff Gibson (Newcastle University)
George Kotsikos (Newcastle
University)
Sandra Christke (Newcastle University)
Camilo Perez (UW Madison)
Andres Tapia (University of Wisconsin-Madison)
Tim Osswald (University of Wisconsin-Madison)
A particle level simulation was
used to simulate fiber suspensions in the concentrated regime. Parameters used in large
scale simulations were obtained
through this simulations, specifically the Interaction Coecient of
the Folgar-Tucker model.
16:50
3.02 Fracture and Damage - Lamina Level (5/5)
3.22 Ductile and Pseudo-ductile
Composites (4/4)
3.17 Sandwich Structures (2/4)
3.10 Fatigue of Composites (4/6)
3.20 Joining and Joints (4/6)
3.08 Short Fibre Reinforced
Thermoplastics (4/4)
WED-4_MUC_3.02-16
CONTROVERSIES IN SOME OF
THE COMMONLY USED DAMAGE MODELS INCORPORATED
IN COMMERCIAL FE CODES
WED-4_SEV_3.22-13
PSEUDO DUCTILITY IN UD
CFRP THROUGH INTERLAMINAR AND PLY WEAKENING
WED-4_VEN_3.17-05
DEVELOPMENT OF THE
LIGHTWEIGHT INSERTS
FOR COMPOSITE SANDWICH
PANELS WITH PYRAMIDAL
TRUSS CORES
WED-4_BUD_3.10-13
INVESTIGATION OF COMPOSITES VIBRATION FATIGUE BEHAVIOUR: HIGH FREQUENCY MODE II DELAMINATION
PROPAGATION
WED-4_STO_3.20-13
FACTORS ESSENTIAL FOR ADHESIVELY BONDED COMPOSITE JOINT DESIGN IN AUTOMOTIVE APPLICATIONS
Ge Qi (Center for Composite
Materials, Harbin Institute of
Technology)
Li Ma (Harbin Institute of Technology)
Jin-Shui Yang (Harbin Institute of
Technology)
Lin-Zhi Wu (Harbin Institute of
Technology)
Guillaume Androuin (Institut
Supériaur de l‘Aéronautique et
de l‘Espace, ISAE)
Laurent Michel (Institut Supériaur de l‘Aéronautique et de l‘Espace, ISAE)
Xiaojing Gong (Institut Supériaur de l‘Aéronautique et de l‘Espace, ISAE)
Irène Maillet (DGA-TA)
WED-4_BIA_3.08-13
SIMULATION OF THE DAMAGE
MECHANISMS OF GLASS FIBER REINFORCED POLYPROPYLENE BASED ON MICRO
SPECIMENS AND 1:1 MODELS
OF THEIR MICROSTRUCTURE
Elena Sitnikova (University of
Nottingham)
Tian-Hong Yu (University of Nottingham)
Shuguang Li (University of Nottingham)
The reliability of predictions of
damage in UD composites resulting from the models implemented in Abaqus and LS-Dyna
is questioned, following the assessment of the predictions given by the models in some basic
loading cases.
Jingjing Sun (Imperial College
London)
Omar Bacarreza (Imperial College London)
Paul Robinson (Imperial College
London)
This paper describes a study examining the behaviour of laminates containing continuous ply
cuts. A simple analytical model
has been used to predict the tensile response of these pre-weakened laminates.
Several types of inserts are proposed for composite sandwich
panels with pyramidal truss
cores. Brief analysis are carried
on to discuss the feasibility and
validity of insert methods.
Mode II crack propagation tests
were conducted at high frequency (>200Hz). Low frequency
crack propagation tests were
conducted at different load ratios. Results in terms of Fatigue
Crack Growth Rate vs Energy Release Rate curves are compared.
Georges Romanos (Henkel AG &
Co KGaA)
Tim Welters (Henkel AG & Co
KGaA)
Juergen Becher (Henkel AG &
Co KGaA)
Christos Derdas (Henkel AG &
Co KGaA)
Adhesive bonding gains considerable attention as technique
enabling composite parts to be
effectively jointed in automotive
mass applications. The paper
addresses the major parameters
and their impact to joint performance and substrate integrity.
Sascha Fliegener (Fraunhofer
IWM)
Tobias Kennerknecht (Fraunhofer IWM)
Matthias Kabel (Fraunhofer
ITWM)
Micro tensile specimens are tested until failure. The microstructure of each individual specimen
is reconstructed in the form of a
finite element model. The experimentally observed damage behavior is accurately captured by
the simulations.
Bruges (BRU)
WED-3_BRU_2.12-11
THERMAL MODELLING OF EPOXY BASED INTUMESCENT
COATINGS IN FIRE
Mathematical modelling of
heat transfer process and obtaining thermal information
like time-temperature curve of
in-house and commercially prepared epoxy based intumescent
coating. The modelling predictions and the experimental results show a good agreement
with each other.
Coffee Break
WED-4
WEDNESDAY
WED-3
16:00
Seville (SEV)
ESCM Council Meeting 2
ESCM Council Meeting 2
Brighton (BRI)
Naples (NAP)
WED-3_BRI_2.04-20
THE POTENTIAL OF EUROPEAN
BAMBOO FIBRE FOR COMPOSITE APPLICATIONS: A CHEMICAL-MECHANICAL APPROACH
WED-3_NAP_2.01-04
FUNCTIONALIZATION OF CARBON FIBERS BY ANODIC OXIDATION: SURFACE ANALYSIS
BY X-RAY PHOTOELECTRON
SPECTROSCOPY
Delphine Depuydt (KU Leuven)
Nick Sweygers (Department of
Chemical Engineering, Laboratory for Applied Physical Chemistry
and Environmental Technology)
Lise Appels (Department of
Chemical Engineering, Laboratory for Applied Physical Chemistry
and Environmental Technology)
Jan Ivens (KU Leuven)
Aart Van Vuure (KU Leuven)
The presented work investigates
the tensile properties as well
as the sorption behaviour and
chemical composition of European bamboo fibres.
London (LON)
Bordeaux (BOR)
Stuttgart (STG)
WED-3_BOR_1.05-04
CEMENT MORTAR REINFORCED WITH RECYCLED CARBON FIBRE AND CFRP WASTE
WED-3_STG_5.04-04
INVESTIGATION ON CREATION
OF FIBROUS RINGS AND
THEIR INFLUENCE ON THE
BRAIDED PREFORM QUALITY
Hoang Nguyen (Doshisha University)
Toru Fujii (Doshisha University)
Kazuya Okubo (Doshisha University)
Valter Carvelli (Politecnico di
Milano)
Matthias Bauer (University of
Augsburg)
Fabian Schubert (University of
Augsburg)
Judith Moosburger-Will (University of Augsburg)
Siegfried Horn (University of
Augsburg)
In this experimental investigation, the effects of recycled
carbon fibres (RCF) and carbon
fibre reinforced polymer (CFRP)
waste of different percentages
were measured on the mechanical properties of Portland cement composites.
The results in this work demonstrate the significant influence of
the process parameter of anodic
oxidation on carbon fiber surface
composition and the possibility
to design the carbon fiber surface chemistry. The characterization is done via XPS.
Andreas Mierzwa (Technical University of Munich / Institute for
Carbon Composites)
Christoph Ebel (Technical University of Munich / Institute for
Carbon Composites)
Tobias Harbers (Technical University of Munich / Institute for
Carbon Composites)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
During braiding of carbon fiber
yarns specific defects may occur.
One common defect is the fibrous ring. This paper deals with
the origin of fibrous rings and
its effects on the braided preform quality.
Augsburg (AUG)
Ingolstadt (ING)
Athens (ATH)
WED-3_ING_6.02-04
FIBRES IN BIOLOGY AND
TECHNOLOGY: SMART FIBRE-REINFORCED MATERIALS
AND STRUCTURES INSPIRED
BY PLANTS AND ANIMALS
16:00
Thomas Speck (Botanic Garden
of the University of Freiburg)
Tom Masselter (University of
Freiburg) Simon Poppinga (University of Freiburg) Marc Thielen
(University of Freiburg) Georg
Bauer (University of Freiburg)
Katharina Bunk (University of
Freiburg) Linnea Hesse (University of Freiburg) Stefanie
Schmier (University of Freiburg)
Anna Westermeier (University
of Freiburg)
During the last decade biomimetics has attracted increasing
attention. Fibre-reinforced structural materials found in plants
and animals share many structural and functional properties
with fibre-reinforced compound
materials.
16:20
Coffee Break
2.04 Bio Composites (6/6)
2.01 Fibers (2/4)
5.13 Additive Manufacturing (2/2)
1.05 Civil Engineering (2/4)
5.04 Textile Composites (2/2)
6.02 Self-Healing and Bio-Inspired Designs (2/3)
WED-4_BRI_2.04-21
THE RELATIONSHIP BETWEEN
THE TENSILE PROPERTIES OF
NATURAL FIBRES AND THEIR
UD COMPOSITES
WED-4_NAP_2.01-05
GETTING BETTER PROCESS
PARAMETERS WITH THE MULLTISCALE MODELLING OF THE
STABILIZATION PROCESS OF
PAN-PRECURSORS DURING
CARBON FIBER MANUFACTURING
WED-4_LON_5.13-04
GRAPHENE-ABS NANOCOMPOSITES FOR FUSED DEPOSITION MODELLING
WED-4_BOR_1.05-05
COMPOSITE MATERIAL IN
REPAIR OF REINFORCED CONCRETE STRUCTURES
WED-4_STG_5.04-05
NEW TEXTILE TECHNOLOGIES
FOR FRP-APPLICATIONS
Sithiprumnea Dul (University
of Trento)
Haroon Mahmood (University
of Trento)
Luca Fambri (University of
Trento)
Alessandro Pegoretti (University
of Trento)
Jules Assih (University of Reims
Champagne-Ardenne)
Ivelina Ivanova (University of
Reims Champagne-Ardenne)
WED-4_ING_6.02-05
IMPACT AND CAI TESTS ON
DOPED CARBON FIBER REINFORCED PLASTICS WITH
BIS-MALEIMIDE BASED POLYMERS. THERMAL CHARACTERIZATION AND HEALING EFFICIENCY VALUE
Kevin Hendrickx (KU Leuven)
Delphine Depuydt (KU Leuven)
Aart Van Vuure (KU Leuven)
Jan Ivens (KU Leuven)
A method is presented to significantly reduce the amount of
samples for single fibre testing.
Futhermore, the relationship between single fibre tensile properties and the composite behavior
was investigated using this novel
testing method.
Musa Akdere (RWTH Aachen
University)
Franz Pursche (Institute of Textilte Technology (ITA)) Christoph
Fresewinkel (RWTH Aachen University) Thomas Gries (RWTH
Aachen University) Gunnar Seide
(RWTH Aachen University)
The paper proposes a simulation model for the stabilization
during carbon fibre manufacturing. The exothermic reaction
during stabilization results in a
higher fiber temperature, which
can be predicted during all zones
in this model.
Graphene nanoplatelets (xGnP)
were incorporated at 4 wt% in
acrylonitrile-butadiene-styrene
filaments obtained by melt mixing process for FDM machine.
The results clearly show xGnP
can improve the thermomechanical performances of 3D-printed parts.
This study is especially interested in repairing reinforced
concrete beams and corbels by
bonding composite materials.
The purpose of the investigation
was to better understanding the
material behavior of strengthened damaged structures.
Günther Thielemann (Sächsisches Textilforschungsinstitut e.V.)
Reinhard Helbig (STFI e.V.)
Martin Braun (STFI e.V.)
This paper presents three developments for efficient, waste and
time reduced manufacturing processes for semi-finished fibre-reinforced products.
Athanasios Kotrotsos (Applied
Mechanics Laboratory) Stavros
Tsantzalis (University of Patras)
Aggelos C. Christopoulos (National Technical University of
Athens) Theodoros Loutas (University of Patras) Vassilis Kostopoulos (University of Patras)
The present work deals with the
effect of the incorporation of bismaleimade based pre-pregs on
the impact and CAI tests of quasi isotropic CFRPs. Additionally
the healing functionality and the
thermal conductivity has been
assessed.
1.03 Marine (1/1)
WED-4_ATH_1.03-01
DEVELOPMENT OF PREFABRICATED COMPOSITE PATCHES
FOR REPAIR OR STRENGTHEN
MARINE STRUCTURES
16:50
L. Mera (AIMEN Technology
Centre)
Sara Dasilva Costa (AIMEN Technology Centre)
R. de la Mano (AIMEN Technology Centre)
Pablo Yarza Sobral (AIMEN Technology Centre)
Elena Rodriguez Senin (AIMEN
Technology Centre)
This paper discloses the procedure development for repair or
strengthen marine structures.
Thus, composite laminates, surface treatments and adhesives
had been selected so to maximise the strength of the solution ensuring its performance
over time.
63
Munich (MUC)
WED-4_MUC_3.02-17
VARIATIONAL ANALYSIS
OF ANGLE-PLY LAMINATES
WITH ARRAYS OF PARALLEL
INTRALAMINAR AND
DELAMINATION CRACKS
17:10
Vladimir Vinogradov (Newcastle
University)
WED-4_SEV_3.22-14
TAKING ADVANTAGE OF THE
HYBRID EFFECT IN THIN-PLY
PSEUDO-DUCTILE LAMINATES
Michael Wisnom (University of
Bristol)
Gergely Czel (University of
Bristol)
Jonathan Fuller (University of
Bristol)
Meisam Jalalvand (University
of Bristol)
Hybrid laminates and angle-ply
laminates with thin unidirectional carbon plies have been
shown to give a pseudo-ductile
response with more gradual failure. This paper shows the effect
of ply thickness on the initial
tensile failure strain.
Venice (VEN)
Budapest (BUD)
Stockholm (STO)
WED-4_VEN_3.17-06
EXPERIMENTAL AND NUMERICAL ANALYSIS OF NOMEX
HONEYCOMB SANDWICH
PANEL INSERTS PARALLEL
TO THE FACE SHEETS
WED-4_BUD_3.10-14
INVESTIGATION OF THE EFFECT OF WATER JET CUTTING
AND MACHINING ON CRACK
INITIATION IN OFF-AXIS TEST
SPECIMENS
WED-4_STO_3.20-14
JOINING OF LIGHT METALS
TO FIBER REINFORCED POLYMER COMPOSITES BY POWER
ULTRASONICS
Ralf Seemann (Technische Universität Hamburg-Harburg)
Dieter Krause (Technische Universität Hamburg-Harburg)
Jens Jakob Bender (Aalborg University)
Jens Ammitzbøll Glud (Aalborg
University)
Esben Lindgaard (Aalborg University)
Custom made sandwich inserts,
which are placed parallel to the
face sheets, are investigated
under in-plane tensile loading
in experimental and numerical
studies. A non-linear simulation
model capable of predicting the
joint strength is derived.
The paper describes preliminary fatigue results from off-axis
specimen tests. The transmitted
light technique is used, but several complications with high contrast gradients are encountered
and attempted solved using negative images on transparencies.
Frank Balle (Technical University
of Kaiserslautern)
Florian Staab (Technical University of Kaiserslautern)
Johannes Born (Composite Technology Center GmbH)
The application of joining techniques like ultrasonic welding
allows a very efficient design
of multi-material-components.
In the talk hybrid welds out of
light alloys to different fiber reinforced thermoplastic composites
will be discussed.
17:30
WED-4_MUC_3.02-18
FAILURE ANALYSIS OF COMPOSITE PRESSURE VESSELS
BASED ON THE ENHANCED
FILAMENT WINDING SIMULATION: COMPARING LAYER-BASED AND FIBER BUNDLE-BASED APPROACHES
Jörg Multhoff (ISATEC GmbH)
Filament-wound composite pressure vessels are usually modeled
using a multi-layered approach
based on the classical laminate
theory. A new approach based on
a finite element formulation with
an embedded fiber-bundle model
is being explored.
WED-4_VEN_3.17-07
EXPERIMENTAL STUDY OF THE
INDENTATION BEHAVIOUR OF
TIED FOAM CORE SANDWICH
STRUCTURES
WED-4_BUD_3.10-15
MODELLING THE DEGRADATION OF Z-PINS UNDER CYCLIC LOADING CONDITIONS
WED-4_STO_3.20-15
FUSION BONDING OF FIBER
REINFORCED THERMOPLASTICS AND THERMOSETS
Mohamed Adli Dimassi (Faserinstitut Bremen)
Oliver Focke (Faserinstitut Bremen)
Christian Brauner (Faserinstitut
Bremen) Axel S. Herrmann (Faserinstitut Bremen)
Felix Warzok (University of
Bristol)
Giuliano Allegri (Imperial College
London)
Maik Gude (Technical University
of Dresden)
Stephen Hallett (University of
Bristol)
The mechanical behaviour of
TFC-Sandwich under quasi-static
indentation loads was studied
with the aim to investigate the
effects of the pin material and
pin volume fraction on the indentation response and to determine
the pin failure modes.
The findings from a previous
micro mechanical study characterising the behaviour of Z-pins
under various fatigue loading
conditions are transferred into
an analytical/numerical model
and validated with bespoke meso
scale DCB and ELS tests.
Hinrich Grefe (Technical University of Braunschweig)
Stefan Kreling (Technische Universität Braunschweig)
R. van Moorleghem (Delft University of Technology)
Irene Fernandez Villegas (Delft
University of Technology)
Klaus Dilger (Technische Universität Braunschweig)
Fusion bonding of thermoplastic materials and thermosets
will generate an adhesion based
joint, with the strength highly
dependent on the thermosets
surfaces conditions.
19:30
Gala Dinner
64
Biarritz (BIA)
Rhodes (RHO)
WED-4_BIA_3.08-14
SINGLE FIBRE CHARACTERISATION OF CURVED FIBRES
WITHIN A THERMOPLASTIC
MATRIX USING X-RAY
TOMOGRAPHY
Dietmar Salaberger (University of
Applied Sciences Upper Austria)
Michael Jerabek (Borealis Polyolefine GmbH)
Christian Hannesschläger (University of Applied Sciences Upper
Austria)
Johann Kastner (University of Applied Sciences Upper Austria)
ESCM Council Meeting 2
X-ray CT was used to determine
key figures for fibre reinforced
polymers. Bent fibres like long
glass, Cellulose and PVA in PP
were analysed. Algorithms for
orientation and length were implemented. The Poly Inclusion
model approach was tested.
WED-4
WEDNESDAY
A new variational stress analysis
is suggested for effective elastic
properties of angle-ply laminates
with parallel (but not necessarily coplanar) intralaminar cracks
and delamination cracks subjected to general in-plane membrane
forces and moments.
Seville (SEV)
WED-4_BIA_3.08-15
THROUGH-PROCESS MODELING FOR ACCURATE PREDICTION OF SHORT AND LONG
TERM ANISOTROPIC MECHANICS IN FIBER REINFORCED
THERMOPLASTICS
Cathelin Julien (SABIC T&I Corporate Research & Development,
Composites)
Amin Sedighiamiri (Sabic)
Tim Van Erb (Sabic)
Through-process modelling for
accurate prediction of short and
long term anisotropic mechanics in fiber reinforced thermoplastics.
ESCM Council Meeting 2
Bruges (BRU)
Brighton (BRI)
Naples (NAP)
London (LON)
Bordeaux (BOR)
Stuttgart (STG)
WED-4_BRI_2.04-22
INVESTIGATION OF SOUND
ABSORPTION AND VIBRATION
DAMPING PROPERTIES OF
FLAX FIBRE COMPOSITES
WED-4_NAP_2.01-06
NANOCELLULOSE/POLY VINYL
ALCOHOL FIBRES: A GREEN
RENEWABLE HIGH PERFORMANCE COMPOSITE
WED-4_LON_5.13-05
MECHANICAL BEHAVIOUR OF
PATTERNED MULTI-MATRIX
COMPOSITES WITH GRADIENT
PROPERTIES
WED-4_STG_5.04-06
SPREADING OF HEAVY TOW
CARBON FIBERS FOR THE USE
IN AIRCRAFT STRUCTURES
Le Quan Ngoc Tran (Singapore
Institute of Manufacturing Technology)
Kede Huang (National University
of Singapore)
Abhishek Vishwanath Rammohan
(National University of Singapore)
Wern Sze Teo (Singapore Institute
of Manufacturing Technology)
Heow Pueh Lee (National University of Singapore)
Won Jun Lee (Imperial College
London)
Adam Clancy (Imperial College
London)
Eero Kontturi (Aalborg University)
Alexander Bismarck (University
of Vienna)
Milo Shaffer (Imperial College
London)
David Stanier (University of
Bristol)
Ian Gent (University of Bristol)
Sree Shankhachur Roy (University
of Manchester)
Ian Hamerton (University of
Bristol)
Prasad Potluri (University of Manchester)
Dmitry Ivanov (University of
Bristol)
WED-4_BOR_1.05-06
FAILURE MODES OF CARBON
FIBER REINFORCED POLYMER
PLATE - STEEL JOINTS WITH
DUCTILE OR BRITTLE ADHESIVES
Sound absorption, sound transmission and vibration damping
behaviour of flax fibre composites were investigated. The study
showed the effects of fibre loading, fibre orientation and thickness on the sound and vibration
properties of the composite.
WED-4_BRI_2.04-23
MULTI-DIE VACUUM ASSISTED PULTRUSION OF FLAX/PLA
THERMOPLASTIC BIOCOMPOSITE ROD
Arnold Oswald (Ecole Polytechnique Montréal)
Felix Lapointe (Polytechnique
Montreal)
Louis Laberge Lebel (Ecole Polytechnique Montréal)
This study reports the pultrusion of Flax/PLA thermoplastic
biocomposite rods. A modular
pultrusion line was built to enable different die configurations
and implement a vacuum chamber. Effect of temperature, die
configuration and vacuum were
studied.
Preparation of high mechanical
performance composite fibre
with green renewable CNC nanofillers through wet spinning and
post-processing.
WED-4_NAP_2.01-07
MANUFACTURE OF CARBON-CARBON COMPOSITES
USING CARBON NANOTUBE-GRAFTED CARBON FIBERS AND THEIR THEIR PROPERTIES
Geunsung Lee (Seoul National
University)
Ji Ho Youk (Inha University)
Jinyong Lee (Agency for defense
development) Woong-Ryeol Yu
(Seoul National University)
In this study, we report about
effects of grafted CNTs on carbon-carbon composites. Unidirectional, woven composites are
manufactured using prepared
CNT-grafted CFs and their mechanical/thermal/electrical properties are measured.
This study is set to explore the
feasibility of improving damage
resilience around structural features in composite components
through varying (a) the internal
geometry of the fabric and (b)
matrix properties.
WED-4_LON_5.13-06
THE MANUFACTURE OF HONEYCOMB CORES USING FUSED
DEPOSITION MODELLING
David Pollard (University of
Bristol)
Carwyn Ward (University of
Bristol)
Guido Herrmann (University of
Bristol)
Julie Etches (University of Bristol)
Exploring the use of 3D Printing
for the manufacture of honeycomb cores, this paper evaluates
the bond strength of the between
filament layers, and the compressive properties of a cores with
different wall thicknesses.
Guijun Xian (School of Civil Engineering)
Jun He (School of Civil Engineering)
The failure mode of the FRPsteel joint depends on the relative strain between the CFRP
and adhesives. When the adhesive possesses a low strain,
the CFRP delamination failure
tended to occur. A prediction
model of maximum shear stress
is proposed.
Daniel Gizik (Airbus Group Innovations)
Christian Metzner (Airbus Group
Innovations)
Christian Weimer (Airbus Group
Innovations)
Peter Middendorf (University of
Stuttgart)
In this paper, a study on the
process parameters of a commercial spreading machine was
conducted. Several heavy tow
carbon fibers were tested, compared and their quality regarding the spreading process was
evaluated.
WED-4_BOR_1.05-07
FATIGUE BEHAVIOUR OF LAMINATED CARBON FIBRE REINFORCED POLYMER STRAPS
FOR BRIDGE SUSPENDERS
WED-4_STG_5.04-07
INFLUENCE STUDY AND COMPACTION BEHAVIOR USING
ULTRASONIC WELDING FOR
PREFORM ACTIVITIES
Giovanni Terrasi (EMPA)
Fabio Baschnagel (ETH Zürich)
Jing Gao (University of Xiamen)
Urs Meier (EMPA)
Ulf Henning Neumann (Airbus
Group Innovations)
Peter Mitschang (Institute for
Composite Materials)
Christian Weimer (Airbus Group
Innovations)
Andreas Gessler (Airbus Group
Innovations)
This paper focuses on the
fretting fatigue behaviour of
pin-loaded carbon fibre reinforced polymer (CFRP) straps
studied as models for suspenders of arch bridges.
This paper presents the influence shares of ultrasonic welding parameters for preforming of
bindered dry fiber materials. Furthermore a comparision to conventional technologies will be
shown regarding the compaction
behavior and time efficents.
Augsburg (AUG)
Ingolstadt (ING)
Athens (ATH)
WED-4_ING_6.02-06
DAMAGE DEVELOPMENT UNDER FATIGUE LOADING IN
OPEN HOLE COMPOSITES
WITH VASCULESSERVING AS
SELF HEALING RESERVOIRS
WED-4_ATH_1.03-02
EXPERIMENTAL AND NUMERICAL STUDIES OF LARGESCALED FILAMENT WOUND
T700/X4201 COMPOSITE RISERS UNDER BENDING
Xenia Tsilimigkra (University of
Patras)
Stavros Tsantzalis (University
of Patras)
George Sotiriadis (University
of Patras)
Vassilis Kostopoulos (University
of Patras)
T. Coope (University of Bristol)
Rafael Luterbacher (University
of Bristol)
Ian Bond (University of Bristol)
Dinh-Chi Pham (Department of
Engineering Mechanics, Institute
of High Performance Computing,
A*STAR) Zhoucheng Su (Institue
of High Performance Computing)
Sridhar Narayanaswamy (Department of Engineering Mechanics,
Institute of High Performance
Computing, A*STAR) Xudong Qian
(National University of Singapore)
Zhenyu Yang (Beihang University)
Adam Sobey (University of Southampton) R. Ajit Shenoi (University of Southampton)
Open hole carbon and glass fiber
reinforced polymers, integrated
with vascules, were compared
regarding their damage development during interrupted fatigue tests. Ultrasonic C-Scan
and Infrared Thermography was
applied to visualize the damaged area.
WED-4_ING_6.02-07
SELF-HEALING ELASTOMERS
– HEALING FUNCTIONALISATION BY POLYMER ANALOGOUS SIDE-GROUP MODIFICATION
17:10
CFRP composite materials
emerges as a potential offshore
riser material. We investigate the
bending performance of filament
wound T700/X4201 composite
risers through multi-level experimental procedure and a progressive failure modeling method.
17:30
Anke Nellesen (Bochum University of Applied Sciences)
Max von Tapavicza (Fraunhofer
UMSICHT)
Annette Schmidt (Universität Köln)
Based on biological self-repairing mechanisms self-healing
strategies for elastomers were
developed. Ionomeric modification has proven to be best for
elastomers. After macroscopic
cut, samples showed a recovery of up to 100 % (Elongation
at break).
19:30
Gala Dinner
65
Munich (MUC)
Seville (SEV)
Venice (VEN)
Budapest (BUD)
Stockholm (STO)
Biarritz (BIA)
Rhodes (RHO)
Bruges (BRU)
9:00
Plenary Lecture 4 (MUC) by Christian Weimer, AIRBUS Group, Germany: THE FUTURE COMPOSITE MATERIALS CHALLENGE IN AERONAUTICS
10:00
3.13 Durability, Ageing, Creep, Environmental Effects (1/2)
3.17 Sandwich Structures (3/4)
3.10 Fatigue of Composites (5/6)
3.20 Joining and Joints (5/6)
3.19 Buckling and Stability (1/2)
3.16 Fibre, Resin and Laminate
Design for Optimized Performance and Manufacture (2/3)
2.11 High Temperature Polymer
Composites (1/2)
THUR-1_MUC_3.13-01
A MULTISCALE FINITE ELEMENT MODEL TO PREDICT THE
DIFFUSIONAL BEHAVIOUR OF
BIOCOMPOSITES DEDICATED
TO STRUCTURAL APPLICATIONS
THUR-1_VEN_3.17-08
FAILURE MODE MAPS FOR
NATURAL FIBER REINFORCED
COMPOSITE SANDWICH
PANELS
THUR-1_BUD_3.10-16
MODELLING THE HYSTERESIS
BEHAVIOR OF FABRIC CARBON
COMPOSITE USING A COLLABORATIVE ELASTO-PLASTO-DAMAGE MODEL WITH
FRACTIONAL DERIVATIVE
THUR-1_STO_3.20-16
INDUCTION WELDING OF
CARBON FIBER REINFORCED
THERMOSET COMPOSITES VIA
THERMOPLASTICS: OVERVIEW
OF EXPERIMENTAL ANALYSIS
OF INDUCTION WELDED SINGLE-LAP JOINTS.
THUR-1_BIA_3.19-01
BENDING-TWIST COUPLING
MECHANISM BY ELASTIC INSTABILITY: AEROELASTIC
STUDY
THUR-1_RHO_3.16-06
INTEGRATED SIMULATION-SUPPORTED COMPOSITE
PRODUCT DEVELOPMENT –
DREAM OR REALITY?
THUR-1_BRU_2.11-01
ADVANCED POLYIMIDE BASED
COMPOSITES FOR IMPROVED
PROCESSING
Falk Runkel (ETH Zürich)
U. Fasel (ETH Zürich)
G. Molinari (ETH Zürich)
Andres F. Arrieta (Purdue University)
Paolo Ermanni (ETH Zürich)
Thomas Burkart (P+Z Engineering GmbH)
Monika Kreutzmann (P+Z Engineering GmbH)
Petra Schilling (P+Z Engineering GmbH)
We present a purely passive morphing mechanism for wings exploiting local elastic instabilities
for continuous twist variations.
The influence of various design
parameters on the buckling-induced twist is assessed by aeroelastic analysis techniques.
In the paper a simulation-supported composite product development process is described and
the advantages and challenges
are described.
THUR-1_BIA_3.19-02
BUCKLING BEHAVIOUR OF
PPS/CF LAMINATES STIFFENED BY INDUCTION WELDING
THUR-1_RHO_3.16-07
OPTIMISING THE PLY DROPPING ORDER IN VARIABLE
STIFFNESS, VARIABLE THICKNESS LAMINATES USING
STACKING SEQUENCE TABLES
Romain Leger (Ecole des Mines
d‘Alès)
Guilherme Apolinario Testoni
(Ecole des Mines d‘Alès)
Stéphane Corn (Ecole des Mines
d‘Alès)
Patrick Ienny (Ecole des Mines
d‘Alès)
This work is a an attempt to develop a numerical parametric
model to predict the durability
of natural fibre reinforced composites. Sets of parameters have
been chosen after an image analysis to build simplified models
and simulate water diffusion.
THUR-1
THURSDAY
10:20
A method for joining fiber-reinforced polymers by induction
welding via thermoplastic layers
is presented in the paper. Shear
test results and failure mechanism of induction welded specimens are compared to that of
benchmark specimens.
THUR-1_BUD_3.10-17
MODELLING INITIATION AND
EVOLUTION OF FATIGUE DAMAGE IN COMPOSITE LAMINATES
Ludovic Freund (LaBPS)
Vanessa Bouchart (LaBPS)
Didier Perrin (Ecole des Mines
d‘Alès)
Pierre Chevrier (LaBPS)
Fabian Muhs (University of
Stuttgart)
Yves Klett (Insitute of Aircraft Design (IFB))
Peter Middendorf (University of
Stuttgart)
Marino Quaresimin (University
of Padova)
Paolo Andrea Carraro (University
of Padova)
Elisa Novello (University of Padova)
Using a new hybrid testing method, a study on the dependency
of different base materials and
geometries on the mechanical,
flatwise compression properties
for Miura-ori foldcores under
otherwise identical conditions
will be presented.
A damage based strategy for the
prediction of fatigue damage and
failure in composite laminates
is presented. Results and predictions for initiation and propagation of off-axis cracks and
delaminations are illustrated and
discussed.
THUR-1_VEN_3.17-10
INFLUENCE OF IMPERFECTIONS ON THE STRUCTURAL
BEHAVIOUR OF HONEYCOMB
CORES
THUR-1_BUD_3.10-18
NONDESTRUCTIVE INVESTIGATION OF THE VHCF-ENDURANCE ON CYCLICALLY LOADED
CFRP BY X-RAY-REFRACTOGRAPHY
THUR-1_STO_3.20-18
NUMERICAL INVESTIGATION
OF INTERFERENCE FIT ASSEMBLIES AND THE INFLUENCE
OF VARYING THE LAMINATE
THICKNESS
Volker Trappe (BAM Federal Institute for Materials Research
and Testing)
Alexander Müller (BAM Federal
Institute for Materials Research
and Testing) Stefan Hickmann
(BAM Federal Institute for Materials Research and Testing)
Philipp Fahr (Technical University
of Munich)
Roland Hinterhölzl (Technical
University of Munich / Institute
for Carbon Composites)
THUR-1_MUC_3.13-03
EFFECT OF MOISTURE UPTAKE
ON FLAX FIBER-REINFORCED
COMPOSITE LAMINATES: INFLUENCE ON DYNAMIC AND
QUASI-STATIC PROPERTIES
This study proposes to investigate the effect of moisture
uptake on a wide spectrum of
mechanical behaviours of unidirectional flax fibre-reinforced epoxy laminates. It includes tensile
monotonic and fatigue testing.
11:00
The developed modelling of
self-heating test is a fast method
to determine the fatigue limit for
composites. The collaborative
model is used to represent the
elastoplastic damage behavior
and the hysteresis loops and to
calculate the dissipation.
Florian Rieger, Liubov Sorochynska (Institute for Composite Materials) Michael Magin (Hochschule
Kaiserslautern) Nicole Motsch
(Institute for Composite Materials) Elías López Alba (Universidad
de Jaén) Bernd Wetzel, Joachim
Hausmann (Institute for Composite Materials)
THUR-1_VEN_3.17-09
INFLUENCE OF GEOMETRY
AND BASE MATERIAL ON THE
COMPRESSIVE PROPERTIES
OF FOLDCORES
Michaël Bergès, Romain Leger
(Ecole des Mines d‘Alès)
Véronique Person, Vincent Placet,
Emmanuel Ramasso, Jérôme Rousseau, Xavier Gabrion (Univ. Bourgogne Franche-Comté)
Stéphane Corn (Ecole des Mines
d‘Alès) Stephane Fontaine (Univ.
Bourgogne Franche-Comté) Patrick
Ienny (Ecole des Mines d‘Alès)
66
Based on theoretical approaches a map predicting the failure
mechanism of sandwich panels
beam geometry in three point
bending can be constructed. In
this work, failure maps for sandwich panels are presented for
natural fiber honeycomb cores.
Alina Krasnobrizha (Ecole Centrale de Nantes) Laurent Gornet
(Institut de Recherche en Génie
Civil et Mécanique)
Patrick Rozycki (Institut de Recherche en Génie Civil et Mécanique) Pascal Cosson (Institut
de Recherche en Génie Civil et
Mécanique)
THUR-1_MUC_3.13-02
HYDROTHERMAL AGING OF
NATURAL FIBERS COMPOSITE:
DETERMINATION OF DIFFUSIVITY PARAMETERS
In this paper, we determine the
diffusive behavior of flax fibers
and two polymers: the acrylic
and vinylester. Measurements
were made on composite material, and an inverse problem was
used to obtain the properties of
raw materials.
10:40
Juan Pablo Vitale (Universidad
Nacional de Mar del Plata)
Gaston Francucci (National University of Mar del Plata )
Ariel Stocchi (National University
of Mar del Plata)
Chris Fischer (Technical University of Dresden)
Falk Hähnel (Technical University
of Dresden)
Andreas Hauffe (Technical University of Dresden)
Klaus Wolf (Technical University
of Dresden)
In order to investigate the extend
and effect of honeycomb imperfections an experimental and numerical study has been conducted. Some of the experimental
findings are given in this paper
as well as an example for the effect of geometric deviations.
A testing machine was integrated
in a SAXS-setup. X-ray refraction topography was performed
while the CFRP-samples were
tensile and cyclically loaded.
This non-destructive technique
enables the detection of micro-cracking and IFF especially
for CFRP.
THUR-1_STO_3.20-17
A QUICK DESIGN TOOL FOR
DCB BONDED JOINTS BASED
ON A COHESIVE ZONE MODEL
AND AN ANALYTICAL ELASTIC
FOUNDATION MODEL
Albert Turon (AMADE, Universidad de Girona) Mario Cabello
(IK4-IKERLAN Technology Research Centre) Carlos Sarrado
(AMADE, Universidad de Girona)
Javier Zurbitu (IK4-IKERLAN Technology Research Centre) Jordi
Renart (AMADE, Universidad de
Girona) Félix Martínez (IK4-IKERLAN Technology Research Centre)
A new analytical DCB model has
been proposed based on elastic
foundation beam theory coupled
with a cohesive zone damage
model is proposed for the failure
analysis of bonded joints.
Numerical results of interference
fit assemblies are compared with
experimental and analytical.
Reasons for better accordance of
numerical results are discussed.
Influence of laminate’s thickness
on contact pressure investigated
in a numerical study.
Coffee Break
Gennaro Scarselli (Università del
Salento)
Silvio Pappadà (Consorzio CETMA, Departments of Materials and
Structures Engineering)
Giuseppe Buccoliero (CETMA)
Andrea Salomi (CETMA) Alfonso
Maffezzoli (University of Salento)
The buckling and post-buckling
behaviour under compression
of a thermoplastic stiffened
panel, assembled with an induction welding technique, and a
L-shaped thermoplastic stringer
is analysed experimentally and
numerically.
THUR-1_BIA_3.19-03
DAMAGE SIMULATIONS IN
A COMPOSITE Ω-STIFFENED
PANEL IN POSTBUCKLING
REGIME
Antonio Bláquez (University of
Seville)
José Reinoso (University Seville)
Federico París (Universidad de
Sevilla)
Submodeling global-local technique is used in this work to simulate the initiation and development of skin-stringer debonding
of a multi-stringer composite
stiffened panel subjected to uniaxial compressive loading.
Daniël Peeters (Delft University of
Technology)
François-Xavier Irisarri (ONERAThe French aerospace Lab)
Mostafa Abdalla (Delft University
of Technology)
The stacking sequence table
method, optimising the ply drop
order, is combined with a gradient-based optimisation, optimising the fibre angle distribution
and ply drop location, to generate optimised variable stiffness,
variable thickness laminates.
THUR-1_RHO_3.16-08
OPTIMIZATION OF FIBER-STEERED COMPOSITES
BY USING THE ISO-CONTOUR
METHOD WITH MAXIMUM
CURVATURE CONSTRAINT
Anna Arsenyeva (Technical University of Munich)
Fabian Duddeck (Technical University of Munich)
The paper presents a novel
method for the optimization of
fiber-steered composite shell
structures, considering manufacturability constraints, expressed
in terms of maximum allowed
curvature - maximum fiber curvature constraint.
Christoph Meier (Airbus Group
Innovations)
Patricia Parlevliet (Airbus Group
Innovations)
Manfred Döring (Fraunhofer LBF)
Investigations into the neat resin
properties as well as the processing of a recently developed
thermoset system, consisting of
a cyanate ester and a PETI resin
in combination with a compatibilizer for the production of CFRP
structures are described.
THUR-1_BRU_2.11-02
COMPOSITE MANUFACTURING
TECHNOLOGIES FOR NOVEL
HIGH TEMPERATURE COMPOSITES
Patricia Parlevliet (Airbus Group
Innovations)
Christoph Meier (Airbus Group
Innovations)
Christian Metzner (Airbus Group
Innovations)
Several processing routes were
investigated for manufacturing
of novel composite structures
based on cyanateester/epoxy.
High-quality laminates were obtained with RTM and toughening
veil resulting in good mechanical
properties at high temperatures.
THUR-1_BRU_2.11-03
DETERMINATION OF THE
FRACTURE TOUGHNESS IN
WOVEN-PLY CARBON FIBERS
POLYPHENYLENE SULFIDE
THERMOPLASTIC COMPOSITES AT TEMPERATURES
HIGHER THAN GLASS TRANSITION TEMPERATURE
Manel Chabchoub (INSA Rouen )
Benoit Vieille (INSA Rouen )
Clément Keller (INSA Rouen )
Moez Beyaoui (ENI Sfax)
Mohamed Taktak (ENI Sfax)
Mohamed Haddar (LA2MP - EniSfax)
Lakhdar Taleb (INSA Rouen )
This study was aimed at investigating the crack initiation and
propagation in a 5-harness satin
weave carbon fabric reinforced
PolyPhenylene Sulphide (PPS)
with quasi-isotropic stacking
sequence.
Brighton (BRI)
Naples (NAP)
London (LON)
Bordeaux (BOR)
Stuttgart (STG)
Augsburg (AUG)
Ingolstadt (ING)
Athens (ATH)
9:00
Plenary Lecture 4 (MUC) by Christian Weimer, AIRBUS Group, Germany: THE FUTURE COMPOSITE MATERIALS CHALLENGE IN AERONAUTICS
2.01 Fibers (3/4)
5.05 Tailored Preforms (1/2)
5.10 Machining (1/2)
1.05 Civil Engineering (3/4)
6.02 Self-Healing and Bio-Inspired Designs (3/3)
1.08 Industrial Applications (1/1)
THUR-1_NAP_2.01-08
MECHANICAL CHARACTERIZATION OF JUVENILE AND RECYCLED CARBON FIBERS USING
SINGLE FIBER TENSILE TESTS
THUR-1_LON_5.05-01
A HOLISTIC APPROACH TO
QUALITY MANAGEMENT FOR
COMPOSITE FORMING PROCESSES - PROCESS ASSESSMENT, SIMULATIVE MODELS,
PROCESS DEVELOPMENT
THUR-1_BOR_5.10-01
DESIGN OF A NEW TOOL WITH
THE INTERMITTENT-SAWTOOTH STRUCTURE FOR DAMAGE REDUCTION IN DRILLING
OF CFRP COMPOSITES
THUR-1_STG_1.05-08
MECHANICAL PROPERTIES OF
NOVEL CARBON/GLASS FIBER
HYBRID ROD FOR TENDONS
THUR-1_ING_6.02-08
RECOVERY AFTER MODE I
CRACK PROPAGATION AND
IMPACT IN E-GLASS REINFORCED POLY(Ε-CAPROLACTONE)/EPOXY BLENDS
THUR-1_ATH_1.08-01
FILAMENT-WOUND COMPOSITE CYLINDERS WITH ARCHSHAPED CROSS SECTIONS
USING ULTRA-HIGH FIBER
TENSION
Amaël Cohades (EPFL)
Véronique Michaud (EPFL)
Yang Wang (Wuhan University of
Technology)
Lei Zu (Wuhan University of Technology)
Jihui Wang (Wuhan University of
Technology)
Jonas Hüther (Karlsruhe Institute
of Technology)
Ina Kohlschreiber (Karlsruhe Institute of Technology)
Matthias Stoll (Karlsruhe Institute
of Technology)
Kay Weidenmann (Karlsruhe Institute of Technology)
Recycling of composites is challenging due to the tight connections between fibers and matrix.
Still, recycling is important when
aiming for a more sustainable
mobility. In this work, different
fibers as well as different testing
devices are compared.
THUR-1_NAP_2.01-09
MICROSCOPIC SURFACE
CHARACTERIZATION OF
TECHNICAL AND TEXTILE
POLYACRYLONITRILE FIBERS
Christina Kunzmann (University
of Augsburg)
Tobias Peter (University of Augsburg)
Judith Moosburger-Will (University of Augsburg)
Siegfried Horn (University of
Augsburg)
We present a new surface structure on nanoscale of PAN-based
fibers utilizing AFM measurements.
Farbod Nosrat Nezami (CIKONI
composiets innovation)
Diego Schierle (CIKONI composites innovation)
Using the example of automated
preforming, the article introduces a holistic development
approach, which covers process
selection and process design
as well as error detection and
mechanical analysis of manufacturing effects on the part performance.
Rao Fu (Dalian University of Technology) Zhenyuan Jia (Dalian University of Technology)
Fuji Wang (Dalian University of
Technology) Youliang Su (Dalian
University of Technology)
Junwei Yin (Dalian University of
Technology) Bin Niu (Dalian University of Technology)
Wei Liu (Dalian University of
Technology)
THUR-1_BOR_5.10-02
EFFECT OF THE RATIO OF CUTTING DEPTH TO EDGE DIAMETER ON CHIP FORMATION
MECHANISM IN MACHINING
OF CFRPS
Julian Fial (University of Stuttgart)
Patrick Böhler (University of
Stuttgart)
Peter Middendorf (University of
Stuttgart)
Youliang Su, Fuji Wang,
Zhenyuan Jia, Junwei Yin, Rao Fu,
Bin Niu, Wei Liu
(Dalian University of Technology)
THUR-1_LON_5.05-03
CUSTOMIZED WOVEN FABRICS
MADE OF GLASS AND CARBON
FIBRES FOR INDUSTRIAL APPLICATIONS
Pascal Hubert (McGill University)
Volker Hombach (Klevers GmbH
& Co. KG)
Marcel Haeske (Klevers GmbH
& Co. KG)
D. Neumann (RWTH Aachen University)
Thomas Gries (RWTH Aachen
University)
The paper describes a route toward tailored fabrics that are
specially designed and fabricated according to requirements of
the FRP manufacturer. Therefore
empiric relations between the
weave process and the FRP properties are established by testing.
Novel carbon/glass hybrid thermoplastic composite rods have
been developed. To investigate
mechanical properties of the
composite rods, tensile tests,
fatigue tests and observations
were carried out.
The analysis of the drilling damage is conducted and a novel
one-shot drill is proposed with
the intermittent-sawtooth structure based on the elastic foundation beam theory. Encouraging
reductions on drilling damages
are achieved by the novel drill.
THUR-1_LON_5.05-02
ADVANCED FORMING OF
TAILORED TEXTILES USING
LOCALLY MODIFIED PROPERTIES FOR OPTIMIZED LIGHTWEIGHT STRUCTURES
This paper gives an insight in advanced forming of tailored fibre
placement preforms. Local fibre
tow manipulation is used to create three-dimensional structures.
A mesoscopic reverse draping
simulation provides the corresponding TFP yarn paths.
Hiroyuki Oguma (National Institute for Materials Science)
Kimiyoshi Naito (NIMS)
This paper studies the chip formation mechanism in machining
of CFRPs. The characteristic of
cutting forces and the specific energy under different ratios of cutting depth to cutting edge diameter (RDD) are investigated by the
orthogonal machining of CFRPs.
And the tool-material interactions
are analyzed to investigate the
chip formation mechanism.
THUR-1_BOR_5.10-03
HIGH SPEED GRINDING OF
PARTICULATE REINFORCED TITANIUM MATRIX COMPOSITES
USING MONOLAYER BRAZED
CBN WHEEL
Changyong Yang (Nanjing University of Aeronautics and Astronautics) Xinxin Xi (Nanjing University
of Aeronautics and Astronautics)
W.F. Ding (Nanjing University of
Aeronautics and Astronautics)
High speed grinding experiments
of particulate reinforced titanium
matrix composites (PTMCs) were
carried out using a monolayer
brazed CBN superabrasive wheel
at the wheel speed of 120 m/s.
The grinding performance of PTMCs was examined and evaluated
in terms of grinding forces, grinding temperature, surface defects
and subsurface characteristics.
Coffee Break
THUR-1_STG_1.05-09
PSEUDO-DUCTILE BRAIDED
COMPOSITE RODS (BCRS)
PRODUCED BY BRAIDTRUSION
Luís Correia (TecMinho)
Fernando Cunha (University of
Minho)
Carlos Mota (University of Minho)
Raul Fangueiro (University of
Minho)
João P. Nunes (University of
Minho)
In this work, BCRs were produced using glass, glass/steel
and basalt/steel hybrid fibres
as reinforcements. Tensile tests
were conducted to evaluate the
Pseudo-ductility. The results
show a modification of tensile
behaviour from fragile to ductile.
THUR-1_STG_1.05-10
PULL-OUT BEHAVIOR OF CFRP
SINGLE-STRAP GROUND ANCHORS
Haifeng Fan (EPFL)
Anastasios Vassilopoulos (EPFL)
Thomas Keller (Ecole Polytechnique Fédérale de Lausanne)
Pull-out experiments were performed on four carbon fiber-reinforced polymer (CFRP) ground
anchors simulating their applications in rock and soil. The CFRP
tendons used in these anchors
comprise a single-strap end on
both the ground and air sides.
Blends of epoxy and PCL were
used as a self-healing matrix in
fiber-reinforced polymer composites. Modulus, toughness,
impact performance as well as
damage recovery after thermal
mending were measured and
compared to those of pure epoxy
composites.
The binding effect of fiber materials during the filament winding process was successfully
simulated using the Finite Element Method (FEM). These results can be useful in designing
the filament wound composite
structure.
THUR-1_ING_6.02-09
MENDABLE PROPERTIES OF
DIELS ALDER THERMOSETS:
THE INFLUENCE OF BACKBONE
FLEXIBILITY AND CROSSLINKING DENSITY
THUR-1_ATH_1.08-02
DESIGN AND CERTIFICATION
OF CFRP CHOPPER DISKS FOR
THE NEAT II TIME-OF-FLIGHT
SPECTROMETER: A LESSON
LEARNED
Eugenio Amendola (CNR - IPCB)
Stefania Dello Iacono (CNR - IPCB)
Alfonso Martone (CNR - IPCB)
Maddalena Giordano (University
of Naples)
Alfonso Iadonisi (University of
Naples)
Matthias Weinzierl (Technical
University of Munich)
V. Antonelli (Technical University
of Munich / Institute of Lightweight Structures)
Horst Baier (Technical University
of Munich / Institute of Lightweight Structures)
A family of thermosetting epoxy
resins has been prepared and
characterized, containing a pair
of Diels-Alder (D-A) adducts in
the epoxy precursor backbone.
THUR-1_ING_6.02-10
THE ADAPTIVE DESIGN OF
HERBACEOUS PLANTS – INSPIRATION FOR BIOMIMETIC
SOLUTIONS
Olga Speck (University of
Freiburg)
M. Caliaro (University of Freiburg)
S. Anandan (University of
Freiburg)
C. Paul-Victor (University of
Freiburg)
Thomas Speck (Botanic Garden of
the University of Freiburg)
During evolution plants have
evolved the capacity to deal with
changing environmental conditions and injuries. Adaptive design in herbaceous plants is the
result of significant changes of
e.g. mechanical properties and /
or geometric configuration.
10:00
10:20
CFRP Chopper disks rotate
around an axis parallel to a neutron beam, reaching operational speeds of up to 366 Hz. This
paper presents all the steps that
led to an improved design of
the system.
THUR-1_ATH_1.08-03
DEVELOPMENT OF A NEW DEFORMABLE FLEXIBLE ACTIVE
FOOT FOR HYDROΪD ROBOT
USING 3D PRINTING OF COMPOSITE
10:40
Mohamad El Asswad (LISV UVSQ)
Samer Alfayad (LISV - UVSQ)
Khaled Khalil (Lebanese University) Fethi Ben Ouezdou (LISV
- UVSQ)
This paper describes the development of a new design of
flexible active foot for HYDROϊD
Robot. This is using the technology of 3D printing of composite
material. Optimization is carried
out and results are discussed.
11:00
67
Munich (MUC)
11:30
THUR-2
THURSDAY
11:50
12:10
Venice (VEN)
Budapest (BUD)
Stockholm (STO)
Biarritz (BIA)
3.13 Durability, Ageing, Creep, Environmental Effects (2/2)
3.17 Sandwich Structures (4/4)
3.10 Fatigue of Composites (6/6)
3.20 Joining and Joints (6/6)
3.19 Buckling and Stability (2/2)
THUR-2_MUC_3.13-04
EXPERIMENTAL/NUMERICAL CHARACTERIZATION OF
HYGROTHERMAL AGEING IN
GLASS/EPOXY COMPOSITES
THUR-2_VEN_3.17-11
INVESTIGATIONS OF VARIOUS
SANDWICH MATERIALS AND
PROCESSES WITH RESPECT TO
AEROSPACE APPLICATIONS
THUR-2_BUD_3.10-19
NOVEL TEST METHOD FOR
CHARACTERIZATION OF UNIDIRECTIONAL COMPOSITE FATIGUE PROPERTIES
THUR-2_STO_3.20-19
METAL REINFORCEMENT
AROUND FASTENER HOLES IN
COMPOSITES
THUR-2_BIA_3.19-04
NUMERICAL INVESTIGATION
ON INITIAL POST-BUCKLING
BEHAVIOUR OF COMPOSITE
THIN-WALLED STRUCTURE
Iuri Rocha (Knowledge Centre WMC) Sibrand Raijmaekers
(Knowledge Centre WMC)
Rogier Nijssen (Knowledge Centre WMC)
Frans Van der Meer (Delft University of Technology) L. J. Sluys
(Delft University of Technology)
Jonas Grünewald (Airbus Group
Innovations)
Jürgen Fillsinger (Airbus Group
Innovations)
Patricia Parlevliet (Airbus Group
Innovations)
Volker Altstädt (University of
Bayreuth)
A combined experimental/numerical approach is used to investigate the effect of water ingression
in glass/epoxy composites. Mechanical tests after multiple immersion durations are combined
with a multiphysics/multiscale
FE2 numerical analysis method.
In this paper two different approaches for the production of
composite sandwiches are introduced, which show high potential
to lower the manufacturing costs
while featuring sufficient performance for certain aerospace
applications.
Andre Tost (IMA Materialforschung und Anwendungstechnik GmbH)
Frank Heinrich (IMA Materialforschung und Anwendungstechnik GmbH)
Jens Ridzewski (IMA Materialforschung und Anwendungstechnik GmbH)
THUR-2_MUC_3.13-05
INFLUENCE OF WATER ABSORPTION ON LONG-TERM
STRENGTH FOR UNIDIRECTIONAL CFRP
THUR-2_VEN_3.17-12
NOVEL CRACK STOPPER CONCEPTS FOR LIGHTWEIGHT
FOAM CORED SANDWICH
STRUCTURES - PERFORMANCE
UNDER STATIC AND FATIGUE
LOADS, FE-MODELLING AND
POTENTIAL FOR USE IN REAL
STRUCTURES
Kazuki Komatsuda (Kanazawa Institute of Technology)
Masayuki Nakada (Kanazawa Institute of Technology)
Yasushi Miyano (Kanazawa Institute of Technology)
The tensile and compressive
static strengths in the longitudinal and transverse directions of
unidirectional CFRP under Dry
and Wet conditions are evaluated
using accelerated testing methodology (ATM).
THUR-2_MUC_3.13-06
INVESTIGATION OF THERMAL
AGEING OF ADVANCED CFRP
TOOLING LAMINATE BY GAS
PERMEABILITY
Philipp Kammerhofer (Technical
University of Munich / Institute
for Carbon Composites)
Swen Zaremba (Technical University of Munich / Institute for Carbon Composites)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
Within this study the relation of
tooling composite porosity and
thermal ageing with subject to the
ageing temperature, the laminate
thickness and the application of
binder within the laminate was
observed.
68
Seville (SEV)
Georgios Martakos (Aalborg University) Wei Wang (University of
Southampton) Jens H Andreasen
(Aalborg University)
Janice Dulieu-Barton (University
of Southampton) Christian Berggreen (Technical University of
Denmark) Ole Thybo Thomsen
(University of Southampton)
The development and test results
of a novel test method for the
fatigue characterization of unidirectional composites will be
presented, suitable for all load ratios and a wide range of laminate
thicknesses.
THUR-2_BUD_3.10-20
NUMERICAL AND EXPERIMENTAL EVALUATION OF FATIGUE
PERFORMANCE OF BEARING
LAMINATES
Marco Hoffmann (Airbus Group
Innovations)
Victoria Otto (Airbus Helicopters)
Tamas Havar (Airbus Group Innovations)
Elif Ahci (Airbus Helicopters)
A numerical method was developed to predict the fatigue bahaviour of composite laminates.
It was validated on coupon level
and applied to predict the failure
of bearing laminates.
Three novel crack stopper designs
for foam cored composite sandwich structures have been investigated with respect to their ability
to deflect and arrest propagating
face sheet/core debond cracks.
THUR-2_VEN_3.17-13
PILOT STUDY ON AN ANANLYTICAL SIZING TOOL APPROACH FOR INSERT LOAD INTRODUCTIONS IN SANDWICH
ELEMENTS
Guangyue Liao (German Aerospace Center)
Marco Brysch (German Aerospace
Center)
Christian Hühne (German Aerospace Center)
An analytic formula is used for
predicting the transverse load
capability of insert load introductions within an insert sizing tool.
The discrepancies to experiments
results as well as the parameters
of influence are discussed.
THUR-2_BUD_3.10-21
OPEN HOLE AND COMPRESSION AFTER IMPACT TESTING
OF CARBON FIBRE/EPOXY
LAMINATES AND THE INFLUENCE OF ENVIRONMENTAL
EXPOSURE
Katleen Vallons (KU Leuven)
Takuya Karaki (Toray)
Ichiro Taketa (Toray)
Stepan Lomov (KU Leuven)
Ignaas Verpoest (KU Leuven)
This paper contains the results
of a study on the open hole tensile and compression properties
and the compression after impact
properties of a carbon fibre - epoxy composite, with and without
exposure to environmental conditioning.
Sahar Akbarpour (KTH Royal Institute of Technology)
Stefan Hallström (KTH Royal Institute of Technology)
A local reinforcement concept is
introduced where metal inserts
are implemented in the form of
stacked patches around fastener
holes in composites. The specimens with optimized inserts
show 50-60% improved bearing
strength in pin-loaded tests.
THUR-2_STO_3.20-20
ADHESIVE PROPERTY
MODIFICATION THROUGH
ADDITION OF MWCNTS FOR
DISSIMILAR MATERIAL JOINT
APPLICATIONS
Maria Konstantakopoulou (Newcastle University)
George Kotsikos (Newcastle University)
The influence on the bond
strength of co-cured CFRP/Steel
and GFRP/Aluminium single lap
joints with three overlap lengths
(25mm, 40mm and 60mm)
through the addition of MWCNTs
into the the epoxy adhesive used
has been investigated.
THUR-2_STO_3.20-21
DESIGN TOOL FOR HYBRID
BONDED/BOLTED COMPOSITE JOINTS
Valentin Romanov (McGill University)
Kobye Bodjona (McGill University)
Larry Lessard (McGill University))
An industry-relevant engineering
tool is developed for the strength
modeling and initial design of hybrid bolted/bonded joints. Fully
parametric, this tool is intended
to be put into the direct industrial use..
Jiayi Yan (University of Nottingham)
Shuguang Li (University of Nottingham)
Shihui Duan (Aircraft Strength Research Institute Xi‘an City)
(1) The analytical expression of
first initial post-buckling coefficient of simply supported curved
shell subjected to uniaxial compression is presented. (2) Numerical results show excellent agreements with analytical values.
THUR-2_BIA_3.19-05
ON LAY-UP OPTIMIZATION OF
ANISOTROPIC COMPOSITE
PLATES IN POST-BUCKLING
Sergey Selyugin (Airbus Operations)
The post-buckling stiffness maximization optimality conditions.
The conditions consist of two
terms, one of them leads to zero
twisting moment in principal curvature axes, another one leads
to zero shear flow in principal
2D-strain axes.
Rhodes (RHO)
Bruges (BRU)
3.16 Fibre, Resin and Laminate
Design for Optimized Performance and Manufacture (3/3)
2.11 High Temperature Polymer
Composites (2/2)
THUR-2_RHO_3.16-09
STACKING SEQUENCE OPTIMIZATION OF CURVED UD-CFRP
LAMINATES FOR IMPROVING
UNFOLDING STRENGTH CONSIDERING THERMAL RESIDUAL STRESSES
THUR-2_BRU_2.11-04
FIBRE REINFORCED POLYIMIDE COMPOSITES AND STRUCTURES MANUFACTURED WITH
RESIN TRANSFER MOULDING
– OVERVIEW OF PROCEDURES
AND PROPERTIES
Juan Manuel González-Cantero
(FIDAMC)
Enrique Graciani (Universidad
de Sevilla)
Federico París (Universidad de
Sevilla) Bernardo López (FIDAMC)
The present study shows results
of a new analytical model to analyse the effect of residual stresses,
due to the cooling after solidification in the manufacturing
process, on the unfolding failure.
Results are used to optimize the
stacking sequence.
Patrik Fernberg (Swerea SICOMP)
In this paper, the major outcomes
from a recently completed research program with ambition to
develop polyimide carbon fibre
composites with temperature
ability above 360°C are reported.
THUR-2_RHO_3.16-10
STRESS ANALYSIS AND DESIGN SUGGESTIONS FOR
MULTI-LOOP CARBON ROVING ROSETTES TO REINFORCE
BOLT-LOADED OPEN-HOLE
LAMINATES
THUR-2_BRU_2.11-05
THE EFFECT OF HIGH TEMPERATURE ON THE MECHANICAL PERFORMANCE OF NOVEL
HIGH TG POLYIMIDE-BASED
CARBON FIBRE-REINFORCED
LAMINATES
Luise Kärger (Karlsruhe Institute
of Technology) Tim Botzkowski
(EDAG Engineering GmbH)
Siegfried Galkin (Karlsruhe Institute of Technology)
Sebastian Wagner (Natural and
Medical Sciences Institute (NMI))
Sebastian Sikora (German Aerospace Center)
Spyros Tsampas (Swerea SICOMP)
Patrik Fernberg (Swerea SICOMP)
Roberts Joffe (Lulea University of
Technology)
An alternative to TFP is presented, where winded carbon rovings
are twisted around a bolt. Based
on an experimentally validated,
mesoscopic FE model generator,
various multi-loop configurations
are evaluated in terms of stresses
and damage behavior.
In this study, the outcomes from
the mechanical testing of the carbon fibre-reinforced polyimide
composite system T650/NEXIMID® MHT-R at ambient and elevated temperatures are presented.
THUR-2_BIA_3.19-06
PROGRESSIVE FAILURE ANALYSIS IN POST-BUCKLED CFRP
STIFFENED PANEL UNDER
COMPRESSION
THUR-2_RHO_3.16-11
THE INFLUENCE OF FIBRE
ANGLE AND RESIN
PROPERTIES ON UNCURED
INTERPLY SHEAR
THUR-2_BRU_2.11-06
MULTIFUNCTIONAL HYBRID
COMPOSITES FOR THERMAL
BARRIER AND HIGH TEMPERATURE APPLICATIONS
Nidhal Bouslama (Université de
Sherbrooke)
Ahmed Maslouhi (Université de
Sherbrooke)
Patrice Masson (Mechanical Engineering Department)
Said Jazouli (Bombardier Aerospace)
Samuel Erland (University of
Bath)
Timothy Dodwell (University of
Exeter)
Richard Butler (University of
Bath)
Luis Carlos Herrera-Ramírez (IMDEA Materials Institute)
Manuela Cano (IMDEA Materials
Institute)
Roberto Guzman de Villoria (IMDEA Materials Institute)
Interply shear is investigated for
angled ply interfaces using a previously established methodology.
Results are discussed with the aid
of surface topology data, with a
view towards validating findings
on a laminate scale demonstrator.
Here, we present a hybrid filler,
based in hollow glass microspheres and carbon nanofibers.
The resulting composites have
lower density and thermal conductivity but improved thermal
diffusivity and electrical conductivity, than the neat resin.
A finite-element model is developed based on progressive failure analysis (PFA). The proposed
model shows ability to predict
correctly the final strength and
simulate main damage modes involved in post buckled CFRP stiffened panel under compression.
Brighton (BRI)
2.13 Electrical Properties of Continuous Fibre Reinforced Composites (1/1)
THUR-2_BRI_2.13-01
A COMPREHENSIVE STRATEGY
TO INCREASE THE OUT-OFPLANE THERMAL CONDUCTIVITY OF CARBON FIBER
COMPOSITES PROCESSED BY
VACUUM ASSISTED RESIN
TRANSFER MOLDING
Jens Schuster (Hochschule Kaiserslautern)
Martin Schütz (Hochschule Kaiserslautern)
Naples (NAP)
London (LON)
5.10 Machining (2/2)
1.05 Civil Engineering (4/4)
8.01 Composite Clusters and Networks (1/1)
THUR-2_NAP_2.01-10
SURFACE CHEMISTRY AND
SURFACE ENERGY OF NATURAL FIBRES BY XPS, IN-LENS
SEM AND INVERSE GAS CHROMATOGRAPHY
THUR-2_LON_5.05-04
EXPERIMENTAL AND SIMULATION STUDY ON THE PERFORMANCE OF FIBER PATCH
PLACEMENT (FPP)
THUR-2_BOR_5.10-04
IMPACT OF THE ABRASIVE
WATER JET MILLING PROCESS
ON THE DAMAGE AND SURFACE CHARACTERISTICS OF
CFRP COMPOSITE.
THUR-2_STG_1.05-11
METHODS FOR THE SERVICE
LIFETIME PREDICTION OF
COMPOSITE MATERIALS UNDER STATIC LOAD
THUR-2_AUG_8.01-01
FROM MANUAL TO SERIAL
PRODUCTION – PHOTONIC
TOOLS FOR LIGHTWEIGHT
CONSTRUCTION
Stefan Gloggnitzer (Montanuniversitaet Leoben)
Peter Guttmann (Montanuniversitaet Leoben)
Peter Jäschke (Laser Zentrum
Hannover e.V.)
Angelica Legras (University of
Queensland)
Michael T. Heitzmann (University
of Queensland)
Rowan W. Truss (University of
Queensland)
Neven Majic (Cevotec GmbH)
Herbert Weidinger (Cevotec
GmbH)
Felix Michl (Cevotec GmbH)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
The presented work shows a
study on the performance of
patch-based composites compared to composites with quasi-isotropic (QI) laminate. Experimental results including a digital
image correlation will be used to
evaluate the simulation results.
THUR-2_BRI_2.13-02
CONDUCTIVITY IMPROVEMENT BY USING SILVER COATED KNITTING YARN IN NCF REINFORCED LAMINATES
THUR-2_NAP_2.01-11
INVESTIGATION OF THE STATISTICAL DISTRIBUTIONS OF
FRACTURE STRENGTHS FOR
VARIOUS FIBERS USING THE
TOW TESTING APPROACH
THUR-2_LON_5.05-05
STRATEGIES TO INCREASE
THE MECHANICAL PERFORMANCE OF LONG FIBER PATCH
PREFORMS
Jacques Lamon (CNRS)
Bernhard Horn (Technical University of Munich)
Christoph Ebel (Technical University of Munich / Institute for Carbon Composites)
Klaus Drechsler (Technical University of Munich / Institute for
Carbon Composites)
Patched laminates show a premature failure due to high peeling forces in the outer plies. The
influence of these stresses on
specimens with different amount
of layers and strategies to reduce
this effect are presented.
THUR-2_BRI_2.13-03
CYCLIC TESTING OF NOVEL
CARBON FIBER BASED STRAIN
SENSOR WITH SPATIAL RESOLUTION
Robin Höhne (Technical University of Dresden)
Pawel Kostka (Technical University of Dresden)
Niels Modler (Technical University of Dresden)
An innovative carbon fiber strain
sensor based on a reversibly
opening and closing of CF filament fragments is proposed. In
this work, the cyclic behavior of
the sensor is investigated for the
first time in order to identify current limitations.
Augsburg (AUG)
5.05 Tailored Preforms (2/2)
This paper highlights the capabilities and the complementarity of
advanced surface techniques to
characterise bast fibre surfaces
in order to aid in the design and
manufacturing of biocomposites.
Using silver coated knitting yarns
increases the through-thickness
conductivity of NCF-reinforced
laminates to up to 540 S/m.
Stuttgart (STG)
2.01 Fibers (4/4)
Design and modeling of thermal
conductivity of carbon fiber reinforced plastics by introducing
thermally high conductive vertical carbon fibers and aluminum
particle loading of the matrix. The
impregnation of the 3D-woven
preform is done by VARTM.
Johannes Rehbein (German Aerospace Center)
Bordeaux (BOR)
THUR-2_LON_5.05-06
TAILORED THERMOPLASTIC
PREFORMING WITH CONTINUOUSLY AUTOMATED CUTTING AND ROBOTIC PICK AND
PLACE PROCESSES OF VARIOUS SEMI-FINISHED GOODS
Michael Kühnel (German Aerospace Center)
Alfons Schuster (German Aerospace Center)
Christian Rähtz (German Aerospace Center)
Michael Kupke (German Aerospace Center)
In contrast to existing, inflexible
and costly production lines and
with respect to industry’s needs
DLR invented a highly flexible and
continuously automated process
chain “from fabric delivery to the
tailored preform” with comparably low invest.
Akshay Hejjaji (Institut Clément
Ader) Redouane Zitoune (University of Toulouse)
Laurent Crouzeix (Institut Clément Ader) Francis Collombet
(Institut Clément Ader) Sabine Le
Roux (Institut Clément Ader)
This work investigates the influence of abrasive water jet milling
on the surface characteristics and
damage of CFRP specimens. Jet
pressure and milling path strategy are important parameters that
affect the machining quality and
damage (crater).
THUR-2_BOR_5.10-05
INFLUENCE OF AMPLITUDE
AND FREQUENCY ON CUTTING
FORCE AND SURFACE INTEGRITY DURING ULTRASONIC
VIBRATION ASSISTED GRINDING CFRP
Yan Chen (Nanjing University of
Aeronautics and Astronautics)
Yucan Fu (Nanjing University of
Aeronautics and Astronautics)
The feasibility of varying amplitude and frequency was analyzed
by changing the overhang length
of tool. And the effect of amplitude and frequency on the quality
of machining was discussed.
THUR-2_BOR_5.10-06
LASER CUTTING AND THE INFLUENCE ON THE MECHANICAL PROPERTIES OF LONG
FIBRE REINFORCED CF/PPS
AND CF/PEI
Sandra Royo Pérez (Element Materials Technology) Peter Hansen
(Element Materials Technology)
Richard Staehr (Laser Zentrum
Hannover e.V.) Sven Bluemel
(Laser Zentrum Hannover e.V.)
Verena Wippo (Laser Zentrum
Hannover e.V.) Stefan Bastick
(Element Materials Technology)
Peter Jäschke (Laser Zentrum
Hannover e.V.)
This paper investigates the mechanical properties of laser cut
thermoplastic carbon fibre reinforced plastics (CFRP) compared
to conventionally machined specimens, mainly mechanical cutting,
using standard and non-standard
test geometries.
Based on creep or creep rupture test in combination with
time-temperature superposition
models it is possible to describe
the long term material behavior
of thermoset unidirectional fiber
reinforced composites for the usage in the civil industry.
THUR-2_STG_1.05-12
SHEAR CONNECTIONS BETWEEN GFRP PULTRUDED
PROFILES AND CONCRETE: A
COMPARISON BETWEEN BOLTING AND BONDING
Alaa Koaik (Universite Lyon)
Sylvain Bel (Universite Lyon)
Bruno Jurkiewiez (Universite Lyon)
In this paper, push out tests are
conducted to examine the mechanical behavior of two different connections between GFRP
pultruded profiles and concrete:
mechanical bolting and adhesive
bonding.
THUR-2_STG_1.05-13
TESTS FOR THE CHARACTERIZATION OF FIBER REINFORCED AUTOCLAVED AERATED CONCRETE
Maria Bruna Alba (ENEA)
Tiziana Cardinale (ENEA)
Piero De Fazio (ENEA)
G. F. Lista (ENEA) Corradino Sposato (ENEA)
Main aim of this paper is to verify
how the addition of basalt fibers
to autoclaved aerated concrete
may improve its the performance
from a mechanical point of view.
The composite material has been
characterized according to the
standard rules.
Ingolstadt (ING)
Athens (ATH)
11:30
In the initiative “Photonic Processes and Tools for Resource-Efficient Lightweight Construction“
the BMBF is aiming at overcoming
existing constraints regarding the
wide use of lightweight materials
in serial production.
THUR-2_AUG_8.01-02
STRENGTHENING EUROPEAN
COMPETITIVENESS THROUGH
A PAN-EUROPEAN NETWORK
OF CLUSTERS OF EXCELLENCE
ON AUTOMOTIVE COMPOSITES
11:50
Marcos Ierides (Bax & Willems
Consulting Venturing) Laszlo Bax
(Bax & Willems Consulting Venturing) Harilaos Vasiliadis (Bax
& Willems Consulting Venturing)
Ignacio Magallon (Universidad
Politècnica de Catalunya) Jacques
Komornicki (European Chemical
Industry Council - Cefic aisbl)
The paper examines the potential
of increasing Europe’s competitiveness in the field of automotive composites by enhancing
the communication, coordination, and knowledge exchange
among existing clusters dispersed
around Europe.
THUR-2_AUG_8.01-03
THE CENTRE FOR RESEARCH
AND TECHNOLOGY FOR RESOURCE-EFFICIENT LIGHTWEIGHT STRUCTURES OF
ELECTRIC MOBILITY (FOREL)
12:10
Michael Stegelmann (Technical
University of Dresden)
Michael Müller (Technical University of Dresden)
Maik Gude (Technical University
of Dresden)
FOREL is a national, comprehensive platform for the development
of lightweight system solutions
for the electric mobility. The main
topics and results of FOREL are
presented in this paper.
69
Munich (MUC)
THUR-2_MUC_3.13-07
RELATION BETWEEN TEMPERATURE AND PHYSICAL
AGEING OF WIND TURBINE
BLADE MATRIX MATERIAL
12:30
Sibrand Raijmaekers (Knowledge
Centre WMC) Iuri Rocha (Knowledge Centre WMC) Rogier Nijssen
(Knowledge Centre WMC)
Venice (VEN)
THUR-2_VEN_3.17-14
STATIC AND CYCLIC DAMAGE
BEHAVIOR OF A CELLULAR
COMPOSITE AND ITS APPLICATION IN A SANDWICH
STRUCTURE
Sergej Diel (Audi AG) Otto Huber
(University of Applied Sciences
Landshut)
A sandwich skateboard with carbon fiber reinforced face layers
and a composite core (glass foam
granule in epoxy resin) is shown.
For the core material a continuum damage mechanics model for
uniaxial static / cyclic loading is
developed and verified.
Budapest (BUD)
Stockholm (STO)
THUR-2_BUD_3.10-22
PERIDYNAMICS FOR FATIGUE
DAMAGE PREDICTION IN
NOTCHED COMPOSITES
THUR-2_STO_3.20-22
QUASI-STATIC STRENGTH OF
HYBRID BONDED-BOLTED SINGLE-LAP JOINTS
Yile Hu (University of Arizona) Erdogan Madenci (University of Arizona) Nam Phan (Naval Air Systems Command (NAVAIR))
Kobye Bodjona (McGill University) Larry Lessard (McGill University)
This study presents a peridynamic modeling of laminated composites with arbitrary fiber orientation and stacking sequence
in order to predict damage initiation and its growth under cyclic
loading.
In this work the quasi-static
strength of bonded and hybrid
bonded-bolted single-lap joints
with different types of adhesive is
investigated experimentally.
Biarritz (BIA)
Rhodes (RHO)
THUR-2_BIA_3.19-07
ROBUST SIZING OF LARGE
THIN-WALLED, COMPOSITE
STRUCTURES SENSITIVE TO
BUCKLING.
THUR-2_RHO_3.16-12
ULTRA-LIGHTWEIGHT CFRP
CORES MADE BY INTERLOCKING METHOD: FABRICATION
AND EVALUATION
Vincent De Groof (Intales GmbH)
Herbert Haller (Intales GmbH)
Manfred Gratt (Intales GmbH)
Juan Pablo Vitale (Universidad
Nacional de Mar del Plata) Gaston
Francucci (National University
of Mar del Plata ) Helmut Rapp
(Universität der Bundeswehr
München) Ariel Stocchi (National
University of Mar del Plata )
An iterative method for nonlinear
buckling analysis using commercial FE solvers is presented. The
method is verified and compared
using results of a full scale test
campaign.
Bruges (BRU)
In this paper, carbon fiber
square-honeycomb are obtained
by an interlocking method. Three
different geometrical patterns are
studied. Compressive and shear
strength are evaluated. Results
are compare to analytical and numerical models.
THUR-2
The relation between temperature and physical ageing is evaluated for a neat epoxy material
commonly used in wind turbine
blades. The mechanical and
thermal behaviour is analysed
to quantify the degree of physical ageing with respect to ageing time.
Seville (SEV)
THURSDAY
12:50
THUR-2_VEN_3.17-15
TWO-SPAN TESTS FOR SANDWICH PANELS UNDER SIMULATED TEMPERATURE AND EXTERNAL LOAD
THUR-2_BUD_3.10-23
SUITABILITY OF STIFFNESS
AND STRENGTH BASED CONCEPTS FOR THE FATIGUE-LIFE
PREDICTION OF COMPOSITES
Harald Nelke (Technische Universität Darmstadt)
Jörg Lange (Technische Universität Darmstadt)
Gerald Pinter (Montanuniversitaet Leoben)
Julia Maier (Montanuniversitaet
Leoben)
Markus Wolfahrt (Polymer Competence Center Leoben GmbH)
Clara Schuecker (Montanuniversitaet Leoben)
Sandwich panels for building construction: Simulated central support tests are able to reproduce
real two span conditions for wall
panels. For roof panels they are
clearly on the safe side. A wider
mid-support increases the performance in both cases.
A critical review on the applicability of fatigue-life prediction
tools available at the moment in
the scientific and industrial community is given. Potentials and
weaknesses of the different theories are discussed.
13:10
THUR-2_STO_3.20-23
SHEAR-OUT FAILURE BEHAVIOUR OF SURFACE
STRUCTURED METALLIC Z-REINFORCEMENTS FOR CFRP
LAMINATES AND JOINTS
Michael Juergens (Airbus Group
Innovations)
Manuel Tiago von Hafe Pérez
Ferreira da Silva (Airbus Group)
Elisabeth Ladstätter (Technical
University of Munich / Institute
for Carbon Composites)
A novel reinforcement technology
for CFRP/CFRP adhesively bonded
joints is presented as a substitute
for riveting and bolting. Shear out
failure behaviour is discussed and
a bridging law is established for
further investigations on a component level.
THUR-2_BIA_3.19-08
TORSION-INDUCED BUCKLING
OF VARIABLE STIFFNESS COMPOSITE CYLINDERS
THUR-2_RHO_3.16-13
VARIABLE STIFFNESS COMPOSITES FOR ROTATING
PRE-TWISTED PLATES
Mohammad Rouhi (Swerea SICOMP)
Hossein Ghayoor (Concordia
University)
Suong V. Hoa (Concordia University)
Mehdi Hojjati (Concordia University)
Matthew Thomas (Bristol University)
Paul Weaver (University of
Bristol)
Stephen Hallett (University of
Bristol)
Variable stiffness composite
cylinders with circular and elliptical cross-sections made by
fiber steering are designed and
optimized for maximum torsion-induced buckling capacity.
A metamodeling based design
optimization method is used for
this work.
A methodology for the design
and optimisation of non-symmetric variable angle tow (VAT)
laminates, with the aim of increasing the untwist of a rotating
pre-twisted plate subjected to
centrifugal force is discussed and
the results shown.
Lunch Break
14:10
Keynote lecture 13 (MUC) by Philippe Boisse, Institut National des Sciences Appliquées Lyon, France:
COMPOSITE FORMING SIMULATIONS AT MACRO AND MESO SCALES
Keynote lecture 14 (BIA) by Bent F. Sørensen, Technical University of Denmark, Denmark:
CHARACTERIZING DELAMINATION RESISTANCE IN TERMS OF MIXED MODE COHESIVE LAWS
15:00
Plenary Lecture 5 - Albert Cardon Lecture (MUC) by Juan José Vilatela, IMDEA Materials Institute, Spain: MULTIFUNCTIONAL COMPOSITES WITH MACROSCOPIC CNT FIBRES
15:50
Closing Ceremony (MUC)
70
Brighton (BRI)
Naples (NAP)
London (LON)
Bordeaux (BOR)
Stuttgart (STG)
Augsburg (AUG)
THUR-2_BRI_2.13-04
ELECTRIC CURRENT DISTRIBUTION BETWEEN A PAIR OF
ELECTRODES ON OPPOSITE
SURFACES OF CFRP LAMINATES
THUR-2_BOR_5.10-07
ANALYTICAL MODEL OF CRITICAL THRUST FORCE FOR EXIPLY DELAMINATION DURING
DRILLING: THERMO-MECHANICAL ANALYSIS
THUR-2_AUG_8.01-04
THE CONTRIBUTION OF MAI
CARBON TO THE DEVELOPEMENT OF CARBON COMPOSITES FOR THE HIGH VOLUME
PRODUCTION
Takuya Yamane (Tokyo Institute
of Technology)
Akira Todoroki (Tokyo Institute of
Technology) Yoshihiro Mizutani
(Tokyo Institute of Technology)
Yoshiro Suzuki (Tokyo Institute
of Technology) Takayuki Nishi
(Aerospace company, Fuji Heavy
Industries Ltd.) Naoyuki Sekine
(Aerospace company, Fuji Heavy
Industries Ltd.) Ai Kawashima
(Aerospace company, Fuji Heavy
Industries Ltd.) Masahito Ueda
(Nihon University)
Jamel Saoudi (Institut Clément
Ader)
Redouane Zitoune (University of
Toulouse)
Suhasini Gururaja (Indian Institute of Science)
Salah Mezlini (University of Monastir)
Philippe Seitier (Insa Toulouse)
Tjark von Reden (MAI Carbon)
The electric current analysis
method for laminated carbon
composites using orthotropic
electric potential function has
been newly developed for the
oblique electric current flow,
and verified by the comparison
with numerical and experimental results.
THUR-2_BRI_2.13-05
TOWARDS MESO SCALE RESISTIVITY-BASED MONITORING
OF DEGRADATION IN LAMINATED COMPOSITES
Gilles Lubineau (King Abdullah
University of Science and Technology (KAUST)) Harilal Remesan
(King Abdullah University of Science and Technology (KAUST))
Khaled Almuhammadi (King Abdullah University of Science and
Technology (KAUST)) Lakshmi
Selvakumaran (King Abdullah
University of Science and Technology (KAUST)) Tushar Bera
(King Abdullah University of Science and Technology (KAUST))
A practical way to track damage
in laminated composites is to
monitor electrical impedance. We
present some fundamental homogenization relations for meso
scale electrical measurement as
well as some spectroscopic results on illustrative examples.
An analytical model for the prediction of the critical thrust force
for exit-ply delamination during
drilling composite laminates
accounting for thermal effect is
proposed.
Ingolstadt (ING)
Athens (ATH)
12:30
Main goal of the Cluster is the
high-volume ability of Carbon
Composites. Therefore over 35
R&D projects have been launched
and show technical advances.
Withal MAI Carbon also have different public relations activities
to anchor carbon composites in
the society and establish training
and development.
THUR-2_BOR_5.10-08
THE IMPACT OF COOLING
STRATEGIES AND FIXTURE OPTIONS ON THE THERMAL LOAD
DURING LASER PROCESSING OF CARBON FIBRE REINFORCED THERMOPLASTICS
12:50
Richard Staehr (Laser Zentrum
Hannover e.V.) Jasmin Lindner
(LASER on demand GmbH)
Sven Bluemel (Laser Zentrum
Hannover e.V.) Oliver Meier (LASER on demand GmbH)
Peter Jäschke (Laser Zentrum
Hannover e.V.) Oliver Suttmann
(Laser Zentrum Hannover e.V.)
L. Overmeyer (Laser Zentrum
Hannover e.V.)
This investigation focusses on different fixture and cooling options
and investigates their impact
on the thermal load during laser
processing of CFRP. The material temperature was measured
by thermography and correlated
with the heat affected zone.
13:10
Lunch Break
14:10
Keynote lecture 15 (NAP) by Hubert Jäger, Technische Universität Dresden, Germany:
CARBON FIBRES - FROM HYPE TOWARDS REALITY FOR FUTURE LIGHTWEIGHT CONCEPTS
Keynote lecture 16 (STG) by Volker Altstädt, University of Bayreuth, Germany:
THERMOPLASTIC LIGHTWEIGHT STRUCTURES - TRENDS AND DEVELOPMENTS TOWARDS SERIAL PRODUCTION
15:00
Plenary Lecture 5 - Albert Cardon Lecture (MUC) by Juan José Vilatela, IMDEA Materials Institute, Spain: MULTIFUNCTIONAL COMPOSITES WITH MACROSCOPIC CNT FIBRES
15:50
Closing Ceremony (MUC)
71
POSTER SHOW
1. Applications
PO_1-01
AERO-ELASTIC ANALYSIS AND OPTIMIZATION OF
COMPOSITE PLATE WINGS
PO_1-02
BOTTOM-UP PARAMETRIC HYBRID COST ESTIMATION FOR COMPOSITE AEROSPACE PRODUCTION
Mohamed Mahran (Cairo University)
Hani Negm (Cairo University)
Karam Maalawi (National Research Center, Cairo)
Adel ElSabbagh (Ain Shams University)
Christian Hueber (Montanuniversitaet Leoben)
Konstantin Horejsi (FACC Operations GmbH)
Ralf Schledjewski (Montanuniversitaet Leoben)
A mathematical model for aero-elastic analysis and
optimization of composite plate-like wings is developed. The required steady and unsteady aerodynamic
analyses are performed using the vortex and doublet
lattice methods, respectively.
PO_1-05
EXPERIMENTAL METHODOLOGY TO DETERMINE
THE ABSORBED ENERGY IN AN AERONAUTICAL
STRUCTURE UNDER IMPACT LOADS USING
DIGITAL IMAGE CORRELATION
PO_1-06
HIGH SPEED DIGITAL IMAGE CORRELATION FOR
MODE SHAPE MEASUREMENTS ON A CARBON
FIBER CURVED PANEL
Fulvio Romano (CIRA Italian Aerospace Research Centre)
Francesco Di Caprio (CIRA Italian Aerospace Research
Centre) Umberto Mercurio (CIRA Italian Aerospace
Research Centre)
Leonardo Lecce (University of Naples)
Evaluation of the collapse load of stiffened CFRP wing
panels, in presence of discrete damages, by applying
progressive failure analysis methodology. Definition
of a new design methodology against the traditional
design approach.
PO_1-07
ON CHARACTERIZING MICROSCOPICALLY THE
ADHESION INTERPHASE FOR THE ADHESION
BETWEEN BRASS-PLATED STEEL CORD WITH
LOW BRASS PLATING AND RUBBER COMPOUND
VARIED WITH CO SALT BY AUGER ELECTRON
SPECTROSCOPY
PO_1-04
DEVELOPMENT OF A CARBON/EPOXY
COMPOSITE NOZZLE MANUFACTURED
BY FILAMENT WINDING
Ingo Hermann Dalibor (Universidade Federal do Rio
Grande do Sul) Humberto Almeida Jr (Universidade
Federal do Rio Grande do Sul) Olexiy Shynkarenko (UnB)
Sandro Amico (Universidade Federal do Rio Grande do Sul)
The subject of this development is a linerless nozzle
manufactured by filament winding process with prepreg
carbon fiber and a inner coating specially developed to
withstand high temperatures.
PO_1-08
SHEET MOLDING COMPOUNDS CONTAINING
CELLULOSE NANOCRYSTALS COATED GLASS
FIBERS
Elías López Alba (Universidad de Jaén)
Ángel Molina Viedma (University of Jaén)
Francisco Alberto Díaz Garrido (University of Jaén)
Ángel Molina Viedma (University of Jaén)
Luis Felipe Sesé (University of Jaén)
Elías López Alba (Universidad de Jaén)
Francisco Alberto Díaz Garrido (University of Jaén)
In this work and energy balance for an aeronautical
structure under impact loads were evaluated. An
experimental methodology was developed to quantify
the transformation of the transmitted energy into the
different damages produced at the specimens.
In this paper, Digital Image Correlation, DIC, and High
Speed Cameras, are applied to determine the mode
shapes [2] of a carbon fiber aeronautical panel. results
show full-field displacements corresponding to each
mode shape over the whole surface.
The effect of the Co salt loading in rubber compound
on the adhesion interphase to brass-plated steel cord
with low brass plating was studied to elucidate the
adhesion retention after hostile aging.
Glass fibers are coated with cellulose nanocrystals
(CNC) by immersing them in CNC aqueous suspension
prior to use in sheet molding compound production to
enhance the interfacial and mechanical properties of
composites.
PO_1-09
ADHESION TEST OF RESIN-INFUSED BASALT
FIBERS FOR WIND ENERGY APPLICATIONS
PO_1-10
NUMERICAL SIMULATION OF MECHANICAL
BEHAVIOR OF A HIGH-VOLTAGE COMPOSITE
CABLE FOR OFFSHORE WIND-ENERGY
PO_1-11
ON DETERMINING THE CHEMICAL STABILITY
OF BASALT FIBRES IN AN ARTIFICIAL ALKALINE
MEDIUM FOR TEXTILE REINFORCED CONCRETE
(TRC) APPLICATIONS
PO_1-12
FUNCTIONALIZED ORMOCER®-BASED RESINS AS
BASIS FOR HIGHLY AESTHETIC, LOAD-STABLE
AND BIOCOMPATIBLE DENTAL MATERIALS
Wilko Happach (RWTH Aachen University)
Davide Pico (RWTH Aachen Univeristy)
Alexander Lüking (RWTH Aachen University)
Gunnar Seide (RWTH Aachen University)
Thomas Gries (RWTH Aachen University)
Rotor wind blades are principally made of E-glass fibers
reinforcement into an epoxy resin. This fibers have
already reached the limit of their mechanical properties,
therefore new materials like Basalt fibers are needed.
72
In this conference paper we present ALPHA, our
self developed hybrid cost tool, designed for the
aerospace industry. We will describe the underlying
estimation principle and demonstrate its capabillity
on a case study.
PO_1-03
DESIGN OF CFRP STIFFENED PANELS BY PFA
Fouad Ech-Cheikh (CEA) Raj Jyoti Das (IFSTTAR)
Monssef Drissi-Habti (IFSTTAR)
Nicolas Ravot (CEA) Fabrice Auzanneau (CEA)
In this study, a simple straight ”1+6” strand is
modelled as a copper conductor and the relationship
between mechanical loads to which conductors
are subjected to and its mechanical responses is
addressed.
Gyung Soo Jeon (Jeonnam Provincial College)
Davide Pico (RWTH Aachen Univeristy) Udit Gohil
(RWTH Aachen University) Alexander Lüking (RWTH
Aachen University) Cynthia Morales Cruz (RWTH
Aachen University) Michael Raupach (RWTH Aachen
University) Thomas Gries (RWTH Aachen University)
On determining the chemical stability of Basalt fibres
in an artificial alkaline medium for Textile Reinforced
Concrete (TRC) applications
Mark Miller (Georgia Institute of Technology)
Amir Asadi (Georgia Institute of Technology)
Robert Moon (Georgia Institute of Technology)
Kyriaki Kalaitzidou (Georgia Institute of Technology)
Jeannette Hoffmann (Fraunhofer ISC)
Herbert Wolter (Fraunhofer ISC)
Somchith Nique (Fraunhofer ISC)
Biocompatible dental hybrid composites well-adjusted
to mechanical/optical properties of natural teeth (dentine/enamel) realized by functionalized ORMOCER®
resins along with adapted particle systems represent
an excellent material for e.g. crowns.
2. Materials Science
PO_2-01
MECHANICAL CHARACTERIZATION BASALT AND
GLASS FIBER EPOXY COMPOSITE BY THE RINGTYPE TEST SPECIMENS
Mauro Lapena (aSpace and Aeronautic Institute)
Gerson Marinucci (IPEN)
The aim of this work is to compare mechanical properties between basalt and E-glass rings manufactured
by filament winding. Split-disk tensile tests provide
reasonably accurate information with regard to the
apparent tensile strength.
PO_2-05
RESEARCH ON MELT SPUN PMMA COMPOSITES
WITH ALIGNED CARBON FIBERS
Muchao Qu (Friedrich-Alexander University)
Dirk Schubert (Friedrich-Alexander University)
PMMA/carbon fibers (CF) composite fibers with highly
oriented CFs were melt spun, with the concentration of
CFs up to 56 vol. %. The percolation threshold of the
composite fibers was estimated between 23.96 vol. %
and 28.64 vol. %.
PO_2-02
EFFECTS OF SIZING ON THE MECHANICAL AND
ELECTRICAL PROPERTIES OF CARBON FIBERS
Shinn-Shyong Tzeng (Tatung University)
Yen-Ju Wang (Tatung University)
Effects of sizing on the mechanical and electrical
properties of carbon fibers were investigated. Desizing
was found to decrease the fiber tensile strength significantly for carbon fibers with surface striations.
PO_2-03
ENVIRONMENTALLY FRIENDLIER METHOD
TO DEPOSIT CELLULOSE NANO-CRYSTALS ON
REGENERATED CELLULOSE FILAMENTS AND
EFFECT OF THE TREATMENT ON MECHANICAL
PROPERTIES OF FIBERS
Abdelghani Hajlane (Lulea University of Technology)
Hamid Kaddami (Laboratory of Organometallic and
Macromolecular Chemistry-Composite Materials)
Roberts Joffe (Lulea University of Technology)
PO_2-04
FUTURE DIRECTIONS AND TRENDS OF CARBON
FIBRE MARKET
Franz Pursche (Institute of Textilte Technology (ITA))
Andreas De Palmenaer (RWTH Aachen University)
Thomas Gries (RWTH Aachen University)
Gunnar Seide (RWTH Aachen University)
Overview of carbon fibre developement and outlook on
carbon fibre needed properties for up coming carbon
fibre markets.
This paper presents environmentally friendlier
technique for deposition of cellulose nano-whiskers
onto the surface of regenerated cellulose fibres
using γ-methacryloxypropyltrimethoxysilane
as coupling agent.
PO_2-06
CHARACTERIZATION OF VINYLESTER RESIN
MODIFIED WITH ELECTROSPUN BNNS/PMMA
NANOFIBERS
PO_2-07
MEASUREMENT OF ACOUSTOELASTIC COEFFICIENT ON CARBON FIBER REINFORCED POLYMER
COMPOSITES USING LCR WAVES
PO_2-08
MECHANICAL AND PHYSICAL PROPERTIES
OF SOME FLAX FIBER REINFORCED
EPDM COMPOSITES
Sukran Gurcan (Anadolu Unıversity)
Abdullah Tugrul Seyhan (Anadolu University)
Wei Wang (Harbin Institute of Technology)
Yumin Zhang (Harbin Institute of Technology)
Yufeng Zhou (Harbin Institute of Technology)
Anton Airinei (Petru Poni Institute of Macromolecular
Chemistry) Maria Daniela Stelescu (National Research
and Development Institute for Textile and Leather,
Leather and Footwear Research Institute)
Nicusor Fifere (Petru Poni Institute of Macromolecular
Chemistry) Cristian Varganici (Petru Poni Institute of
Macromolecular Chemistry) Elena Manaila (National
Research and Development Institute for Textile and
Leather, Leather and Footwear Research Institute)
Characterization of vinylester resin modified with
BNNS filled PMMA electrospun nanofibers was carried
out in terms of thermal response of the resulting
composites.
Using critically refracted longitudinal wave, we
acquired the relations between variation of the timeof-flight and applied stress along different direction,
which is meaningful for accurate measurement of
residual stress in CFRP composites.
Polymer composites based on EPDM and flax fibers
have been obtained by melt blending technique. The
structural characteristics of some EPDM/flax fibers
composites were evaluated by mechanical and water
absorption properties, thermal stability.
PO_2-09
MECHANICAL PROPERTIES OF PA6 COMPOSITES
REINFORCED WITH SURFACE-TREATED PITCH
CARBON FIBERS
Jin Woo Yi (Korea Institute of Materials Science)
Wonoh Lee (Korea Institute of Materials Science)
Dong Gi Seong (Korea Institute of Materials Science)
Sang Woo Kim (Korea Institute of Materials Science)
Moon Kwang Um (Korea Institute of Materials Science)
Polymer composites were successfully fabricated by a
film infusion process with PA6 as matrix and phenoxy
resin-coated pCFs as reinforcement. ILSS show that
interfacial adhesion between PA6 and the carbon fiber
can be improved by the phenoxy resins.
PO_2-10
NON-DESTRUCTIVE DETERMINATION OF
MORPHOLOGICAL PARAMETERS OF POLYMER
BASED PARTICLE COMPOSITES BY MEASURING
PERMITTIVITY
Jörg Bossert (Friedrich Schiller University Jena)
Mike Mühlstädt (Friedrich Schiller University Jena)
Matthias Arras (Friedrich Schiller University Jena)
Klaus D. Jandt (Friedrich Schiller University Jena)
This preliminary study demonstrates that the presented technique can be considered as a promissing
non-destructive testing method for monitoring the
integrity of shear-sensitive flaky particles embedded
in a polymer matrix.
PO_2-11
NUCLEATING ACTIVITY OF CORK IN POLYPROPYLENE-BASED COMPOSITES
Sara Magalhães da Silva (University of Aveiro)
Paulo Silva Lima (Universidade de Aveiro)
José Martinho Oliveira (Universidade de Aveiro)
The nucleating activity (Φ) of cork-polymer
composites (CPC) in a polypropylene (PP) matrix was
analyzed by Dobreva and Gutzow method. Results
suggest that cork can act as a nucleating agent during
non-isothermal crystallization.
PO_2-12
OPTIMIZATION OF HEAT FUSION OF THERMOPLASTIC RESIN BY MOLECULAR DYNAMICS AND
A RESPONSE SURFACE METHOD
Kento Takeuchi (Tokyo University of science)
Ryosuke Matsuzaki
Tomonaga Okabe (Tohoku University)
Yutaka Oya (Tohoku University)
We simulated heat fusion and uniaxial elongation of
thermoplastic resins by MD simulation and optimized
heat fusion condition by response surface method.
We obtained optimum condition and the interfacial
strength of optimum model is the highest.
73
2. Materials Science
PO_2-13
AN INTERFACE MODEL OF THE FIBER PULLOUT
PROCESS OF THE CARBON NANOTUBES (CNT)
HYBRIDIZED CARBON FIBER (HCF) COMPOSITES
PO_2-14
EFFECT OF ATMOSPHERIC PRESSURE PLASMA
TREATMENT ON INTERFACIAL BONDING OF CF/
PP COMPOSITES
Zhang Yao (Institute of Soild Mechanics, Beihang
University) Zixing Lu (Institute of Soild Mechanics,
Beihang University) Zhenyu Yang (Beihang University)
Mototsugu Tanaka (Kanazawa Institute of Technology)
Naoki Osawa (Kanazawa Institute of Technology)
Tomotaka Kitagawa (Kanazawa Institute of Technology)
Takumi Okumura (Kanazawa Institute of Technology)
Miho Onodera (Kanazawa Institute of Technology)
Tomoya Nagano (Kanazawa Institute of Technology)
Masatoshi Orito (Kanazawa Institute of Technology)
Manato Kanesaki (Kanazawa Institute of Technology)
Hiroshi Saito (Kanazawa Institute of Technology)
Satoshi Osawa (Kanazawa Institute of Technology)
An interface model which combines the CNT pullout
theory and the cohesive zone model is proposed for
analyzing interfacial shear strength during fiber pullout process of the hybridized carbon fiber composites.
PO_2-15
STUDY ON THE LOW FRICTION POLYMER
FIBER STITCHED CARBON FIBER/PHENOLIC
COMPOSITE MATERIALS FOR JOURNAL BEARING
APPLICATION
PO_2-16
THERMO-OXIDATIVE DEGRADATION OF CARBON
FIBER SIZINGS AND ITS IMPACT ON THE
MECHANICAL PERFORMANCE OF CARBON FIBER
REINFORCED POLYPROPYLENE COMPOSITES
Minhye Jung (Korea Institute of Carbon Convergence
Technology (KCTECH)) Hyun Kyu Shin (Korea Institute
of Carbon Convergence Technology(KCTECH))
Seong Su Kim (Chonbuk National University)
Christoph Unterweger (Kompetenzzentrum Holz GmbH)
Jiri Duchoslav (Johannes Kepler University Linz)
David Stifter (Johannes Kepler University Linz)
Christian Fürst (Kompetenzzentrum Holz GmbH)
Composite journal bearings were fabricated using a
carbon fiber/phenol composite by stitching the continuous carbon fiber fabrics along the thickness direction
using a low friction polymer fibers to enhance the ILSS
and the tribological properties.
Thermo-oxidative stability of CF sizings during heat
treatment experiments and processing was investigated by XPS. Alike the stability of the sizings, mechanical
properties of PP/CF composites also displayed a
dependency on processing temperature.
PO_2-18
BIONANOCOMPOSITES BASED ON UNMODIFIED
AND SURFACE MODIFIED NANOFIBRILLATED
CELLULOSE EXTRACTED FROM WHEAT STRAW
PO_2-19
EFFECT OF STACKING SEQUENCE ON LOW
VELOCITY IMPACT AND POST-IMPACT BEHAVIOR
OF FLAX/POLYAMIDE 11 COMPOSITES
PO_2-20
GREEN COMPOSITES: CHALLENGES TO REACH
HIGH PERFORMANCE COMPONENTS
Mandeep Singh (Panjab University) Anupama Kaushik
(Panjab University)
Yann Lebaupin (estaca‘lab) Michael Chauvin (estaca‘lab)
Thuy-Quynh Truong Hoang (estaca‘lab)
Fabienne Touchard (P‘ Institute)
We developed a prototype, which can conduct the
surface treatment of CFs and PP separately by the air
dielectric barrier discharge. The effect of treatment
condition on interfacial bonding was evaluated in
UD-CF/PP films.
PO_2-17
TITANIUM DIOXIDE NANOPARTICLES-COATED
ARAMID FIBER SHOWING ENHANCED INTERFACIAL STRENGTH AND UV RESISTANCE
PROPERTIES
Ben Wang (Xi’an Jiaotong University)
Yugang Duan (Xi’an Jiaotong University)
Jingjing Zhang (Xi’an Jiaotong University)
A developed low-temperature hydrothermal method
was employed to grow TiO2 nanoparticle on the
aramid fiber surface with the aim to enhance the poor
interfacial strength and the UV resistance properties of
the fiber material.
In this paper, a fully biosourced composite: flax/
Polyamide 11 is studied. Different stacking sequences
are studied in order to investigate the lay-up effect
on the impact and post impact behavior of these
composites. Impact energy applied is 3.6 J.
The major focus is on Biocomposites‘ processability.
Challenges in processing are analyzed. The final
performance of the bio-based composite is compared
with conventional systems, i.e. epoxy-glass.
PO_2-24
DENTAL POLYACIDS CONTAINIG AMINO ACIDS
AND METHACRYLATE MOIETIES
PO_2-21
INVESTIGATION OF INFRARED HEATING OF
NATURAL FIBER REINFORCED THERMOPLASTIC
POLYMERS
PO_2-22
MECHANICAL PROPERTIES OF HEMP FIBRE/
EPOXY COMPOSITES - INFLUENCE OF FIBRE
CHEMICAL TREATMENTS
PO_2-23
FLAX FIBRE REINFORCEMENT CHARACTERIZATION FOR UNIDIRECTIONAL COMPOSITE
APPLICATION
Jovana Dzalto (Institute for Composite Materials)
Luisa Medina (Institute for Composite Materials)
Peter Mitschang (Institute for Composite Materials)
Raffaele Sepe (Second University of Naples)
Flavia Bollino (Second University of Naples)
Angelo Ceparano (Second University of Naples)
Giuseppe Lamanna (Second University of Naples)
Lauric Gaffiot (Cermav - CNRS)
Laurent Heux (Cermav - CNRS)
The aim of this study is to investigate an optimum IR
heater temperature in order to facilitate an optimal
heating of natural fiber reinforced polypropylene
without thermal degradation of natural fibers.
74
TPS bionanocomposites were prepared by reinforcing
unmodified and surface modified nanofibrillated
cellulose. Study reported considerable improvement
in the barrier properties the bionanocomposites
reinforced with surface modified nanofibers.
In this paper, tensile and flexural strength of epoxy
matrix composite reinforced with woven hemp was
studied. Fibre-matrix adhesion was promoted by fibre
surface modifications using an alkaline treatment and
a silane coupling agent.
Silvia Lloret Pertegás (Montanuniversitaet Leoben)
A. Anusic (Montanuniversitaet Leoben)
Katharina Resch (Montanuniversitaet Leoben)
Ralf Schledjewski (Montanuniversitaet Leoben)
Treatments for the compatibilization of natural
fibres with polymer matrix have been developed and
characterized on different scales from the technical
fibres to the composite.
Tinca Buruiana (Petru Poni Institute of Macromolecular Chemistry) Marioara Nechifor (Petru Poni Institute
of Macromolecular Chemistry) Violeta Melinte (Petru
Poni Institute of Macromolecular Chemistry)
C. Prejmerean (University Babes Bolyai) Emil Buruiana
(Petru Poni Institute of Macromolecular Chemistry)
Results concerning synthesis and some properties of
resin-modified glass ionomers based on poly(acrylic
acid-co-itaconic acid-co-N-acryloyl-L-alanine/glycine)
containing methacrylate moieties, BisGMA, TEGDMA
and bioactive glass were reported.
2. Materials Science
PO_2-25
SWELLING OF FLAX FIBERS: EFFECT OF A
THERMAL TREATMENT ON THEIR DIMENSIONAL
STABILITY
Monica Francesca Pucci (EMSE) Pierre-Jacques Liotier
(Mines Saint-Etienne) David Seveno (KU Leuven)
Carlos Fuentes (KU Leuven) Aart Van Vuure (KU
Leuven) Sylvain Drapier (Mines Saint-Etienne)
This paper describes how flax fibers were submitted
to a thermal treatment to modify their wettability and
sensitivity to liquid sorption. Swelling of untreated and
treated fibers was measured combining an optical and
a tensiometric methods.
PO_2-26
TENSILE PROPERTIES OF BOWING NATURAL LFT
COMPOSITES
Junji Noda (Yamaguchi University) Kousuke Torii
(Yamaguchi University) Syotaro Hiramatsu (Yamaguchi
University) Koichi Goda (Yamaguchi University)
Natural LFT composites with high Young’s modulus
were developed using M-PaRI process. From fiber
morphologies, it was confirmed the bowing natural
fibers occurred near skin. Young’s modulus prediction
based on FEM was conducted and discussed.
PO_2-29
EFFECT OF EPOXY-GNPS NANOCOMPOSITES
COATINGS ON THE WEAR BEHAVIOUR OF
ALUMINIUM
PO_2-30
EFFECTS OF THE SUPPORTS WITH DIFFERENT
DIMENSIONS ON ELECTROCHEMICAL PERFORMANCE OF PLATINUM NANOPARTICLES
Monica Campo (Universidad Rey Juan Carlos)
A. Jimenez-Suarez (Universidad Rey Juan Carlos)
A. Urena (Universidad Rey Juan Carlos)
Yu-Chun Chiang (Yuan Ze University)
Pai-Hsuan Wu (Yuan Ze University)
Heng-I Yueh (Yuan Ze University)
Epoxy coatings, reinforced with differents graphene
nanoplates percentages (0–10 wt%), have been
deposited on aluminium substrates to improve its
wear behavior. The wear of aluminium significantly
improves due to the lubricant effect of graphene.
The characteristics and electrochemical activity of
Pt nanoparticles deposited on carbon nanotubes,
graphene sheets and carbon blacks were studied. The
Pt deposited on graphene sheets exhibited the highest
electrochemical performance.
PO_2-33
INVESTIGATING THERMAL AND MECHANICAL
PROPERTIES OF GRAPHENE/EPOXY NANOCOMPOSITES - EXPERIMENTS
PO_2-34
PIEZORESISTIVE THERMOPLASTIC FILM
FOR COMPOSITES EMBEDDED HEALTHMONITORING SYSTEM
Jia-Lin Tsai (National Chiao Tung University)
Ming-Wei Lee (National Chiao Tung University)
Tai-Yuan Wang (National Chiao Tung University)
Ruggero Volponi (CIRA Italian Aerospace Research Centre)
Paola Spena (IMAST)
Felice De Nicola (CIRA Italian Aerospace Research Centre)
Pietro Russo (Consiglio Nazionale delle Ricerche)
The research investigated the thermal and mechanical
properties of functionalized graphene/epoxy nanocomposites. Results indicated that Young’s modulus and
thermal conductivity of the nanocomposites increased
when the graphene was functionalized.
The present work show a way to integrate a piezoresitive nanocharged thermoplastic thin film into a
fiber reinforced composite to improve an embedded
health-monitoring system.
PO_2-27
THE INFLUENCE OF MALEIC ANHYDRIDE
ADDITION ON THE MECHANICAL PROPERTIES OF
PP/BUCKWHEAT HUSK COMPOSITES
PO_2-28
ANISOTROPIC NANOSTRUCTURE INSPIRED BY
NATURE FOR ENERGY ABSORBING COMPOSITE
INTERFACES
Marek Szostak (Technical University of Poznan)
Jacek Andrzejewski (Technical University of Poznan)
Kamila Witowska (Technical University of Poznan)
Francois De Luca (Imperial College London)
Alexander Bismarck (University of Vienna)
Milo Shaffer (Imperial College London)
The influence of maleic anhydride on the structure
and mechanical properties of PP/buckwheat husk
composites was examined static tensile tests and SEM
observations. Effectiveness of MAPP modification was
compared with wood polymer composite.
A nacre-nanomimetic with the classic „brick-andmortar“ structure of natural nacre was assembled.
Therefore, an increase in the absolute interface density
enabled for substantial plastic deformation.
PO_2-31
FABRICATION OF HIGH HARDNESS AND HIGH
STRENGTH ALTI-TIB2 COMPOSITE MATERIALS
PO_2-32
GRAPHENE MODIFIED CFRP FOR ENHANCED
DAMAGE BEHAVIOR
Masashi Yoshida (Ube National College of Technology)
Daniel Fritsch (Technische Universität Hamburg Harburg)
Hans Wittich (Technische Universität Hamburg-Harburg)
Bodo Fiedler (Technische Universität Hamburg-Harburg)
This contribution presents the effect of graphene
modification on epoxy matrix material‘s fracture
toughness and the compression after impact strength
of the graphene modified CFRP produced in vacuum
assisted resin transfer moulding (VARTM) method.
PO_2-35
SIMULATION OF IMPREGNATION TO THE CNT
FOREST BY MOLECULAR DYNAMICS METHOD
PO_2-36
THEORETICAL MODELLING OF THE ELASTIC
MODULUS OF POLYMER NANOCOMPOSITES
Tomohiro Tajiri (Tokyo University of Science)
Ryosuke Matsuzaki
Yoshinobu Shimamura (Shizuoka University)
Tom Thorvaldsen (Norwegian Defence Research
Establishment (FFI))
Bernt B. Johnsen (Norwegian Defence Research
Establishment (FFI))
Torbjørn Olsen (Norwegian Defence Research
Establishment (FFI))
Finn Knut Hansen (University of Oslo)
We conducted a molecular dynamic (MD) simulation
of introduction of water into between CNTs of VACNFs,
and evaluated water permeability. The aims were
to verify the application of Gebart equation and
investigate the flow tendency.
Mathematical models are investigated and suggested
for the calculation of the elastic modulus of polymer
nanocomposites, with particular emphasis on the
effect from agglomerates and the particle interphase
properties.
75
2. Materials Science
PO_2-37
EFFECT OF DEFECTS ON THERMAL TRANSPORT
PROPERTIES OF CNR-GRAPHENE NANOSTRUCTURE
PO_2-38
MECHANICAL PROPERTIES OF MODIFIED
GRAPHENE NANOPLATELETS REINFORCED EPOXY
NANOCOMPOSITES
PO_2-39
IMPROVEMENT OF FLAX FIBER REINFORCED
COMPOSITE BY HYBRIDIZATION WITH CARBON
FIBER: SORPTION AND MECHANICAL PROPERTIES
Shi Gang (NUDT)
Yin Changping (National University of Defense Technology)
Zhang Jianwei (National University of Defense Technology)
Ju Su (National University of Defense Technology)
Jiang Dazhi (National University of Defense Technology)
Chin-lung Chiang (Hungkuang University)
Wei Jen Chen (China University of Science and Technology)
Yi-Luen Li (China University of Science and Technology)
Ming-Chuen Yip (University of Macau)
Ming-Yuan Shen (China University of Science and
Technology)
Meriem Fehri (université de Caen-Normandie)
R. R. Ragueh (Université de Caen Normandie)
Y. Lebarillier (Université de Caen Normandie)
Alexandre Vivet (Université de Caen Normandie)
Mohamed Haddar (LA2MP - EniSfax)
Fakhreddine Dammak (LA2MP - EniSfax)
The graphene nanoplatelets (GNPs) modified with maleic
acid (MA) were used to reinforce epoxy resin to prepare
the nanocomposite and to investigate their mechanical
properties, such as tensile and impact properties.
Several hybrid stacking sequences made of carbon and
flax plies have been tested to analyse the influence
of the carbon fiber ply position inside the structure
on the water recovery behavior and the buckling test
response.
PO_2-42
MECHANICAL CHARACTERIZATION AND DAMAGE
EVOLUTION OF A CU-SIC – INTERPENETRATING
METAL MATRIX COMPOSITE MANUFACTURED BY
A SQUEEZE-CAST INFILTRATION METHOD
PO_2-43
TECHNOLOGY OF PRODUCTION OF COMPOSITE
POWDERS TI6AL4V-AL2O3 FOR ADDITIVE
METHODS OF PRODUCTION
In the paper, the molecular dynamic simulation method
is used to investigate how defects in the CNR-graphene
junctions affect thermal transport properties of the
CNR/Graphene nanostructure.
PO_2-41
EFFECTS OF HIGH TEMPERATURES ON ALUMINA
CERAMIC FIBERS
Teresa Go (RWTH Aachen University)
Davide Pico (RWTH Aachen Univeristy)
Alexander Lüking (RWTH Aachen University)
Thomas Gries (RWTH Aachen University)
Gunnar Seide (RWTH Aachen University)
Commercial oxide ceramic fibers are exposed to
different high temperatures (up to 1000 °C). After
that, the structure is detected with wide angle x-ray
diffraction.
A first mechanical characterization of a Cu/
SiC-composite with interpenetrating network structure
manufactured by high temperature squeeze casting of
SiC- preforms was performed by means of Ultrasonic
Phase Spectropy and in situ compression tests.
PO_2-45
THE CRYSTALLINITY DEGREE INFLUENCE ON THE
WEATHER RESISTANCE OF CF/PPS COMPOSITES
PO_2-46
NON-LINEAR RESPONSE OF ENVIRONMENTALLY
AGED POLYMER COMPOSITES: A PHYSICOCHEMICAL AND MECHANICAL STUDY
Natassia Batista (UNESP)
Mirabel Rezende (UNIFESP)
Edson Botelho (UNESP)
The influence of the polymer crystalliny on the
weather resistance of CF/PPS composites exposed to
hygrothermal, salt spray and UV radiation chambers
were evaluated. The weathering showed to affect the
crystallinity and mechanical properties.
76
Andreas Reeb (Karlsruhe Institute of Technology)
Alexander Wanner (Karlsruhe Institute of Technology)
Kay Weidenmann (Karlsruhe Institute of Technology)
Sotirios Grammatikos (Chalmers University of Technology)
Mark Evernden (University of Bath)
Richard Ball (University of Bath)
In this paper, the anomalous behaviour of polymer
composites subjected to hygrothermal aging is
discussed in reference to the results of a characterization study on polyester matrix fibre reinforced polymer
(FRP) composites.
Pavel Lykov (South Ural State University)
R.M. Baitimerov (South Ural State University)
Sergei Sapozhnikov (South Ural State University)
Sergey Vaulin (South Ural State University)
Evgeniy Safonov (South Ural State University)
Dmitry Zherebtcov (South Ural State University)
Ryslan Abdrakhimov (South Ural State University)
PO_2-40
EFFECT OF MECHANICAL ALLOYING ON THE
PROPERTIES OF AA6005A/TIB MMC
Victoria Utrilla (Universidad Rey Juan Carlos)
N. Abuwarda (Universidad Rey Juan Carlos)
M. Dolores Escalera (Universidad Rey Juan Carlos)
Enrique Otero (Universidad Rey Juan Carlos)
M. Dolores López (Universidad Rey Juan Carlos)
An A6005 aluminium alloy composite reinforced with
5% titanium boride particles have been produced by
P/M processing. After 8 hours of mechanical alloying,
the best size distribution and good mechanical
properties were obtained.
PO_2-44
CRYOGENIC PROPERTIES OF EPOXY RESIN MATRIX
COMPOSITES PREPARED BY RTM PROCESS
Han-Qiao Shi (Aerospace Research Institute of Materials
& Processing Technology) Kung Gao (Aerospace Research
Institute of Materials & Processing Technology) Jian-Bo Sun
(Aerospace Research Institute of Materials & Processing
Technology) Qian Liu (Aerospace Research Institute
of Materials & Processing Technology) Bao-Gang Sun
(Aerospace Research Institute of Materials & Processing
Technology) Yi Zhang (Aerospace Research Institute of
Materials & Processing Technology)
The purpose of this work is developing of the method
for producing the composite powder (Ti6Al4V-Al2O3)
suitable for use in additive technology. The method
involves surface modification of metal powders as a
second phase in a planetary mixer.
For cryogenic application, M40-level braiding fabric/
epoxy composites were prepared via a RTM process. The
mechanical properties of M40-level braiding fabric/epoxy composite at 80℃, RT and -196℃ were examined.
The effects of cryogenic temperature on the mechanical
properties of the composite were studied.
PO_2-47
THERMAL PERFORMANCE EVALUATION OF
ENERGY EFFICIENT PARAFFINIC PCMS/EXPANDED VERMICULITE AND PERLITE COMPOSITES
FOR ENERGY SAVING
PO_2-48
LONG-TERM THERMAL STABILITIES OF POLYIMIDE RESIN TRIA-X AND CARBON FIBER/TRIA-X
COMPOSITE MATERIAL
Su-Gwang Jeong (Soongsil University)
Seong Jin Chang (Soongsil University)
Seunghwan Wi (Soongsil University)
Yujin Kang (Soongsil University)
Sumin Kim (Soongsil University)
Yuki Kubota (Japan Aerospace Exploration Agency)
Takefumi Furuta (Kanaka Co.) Yuichi Ishida (Japan
Aerospace Exploration Agency) Rikio Yokota (Kanaka
Co.) Masahiko Miyauchi (Kanaka Co.) Toshio Ogasawara
(Tokyo University of Agriculture and Technology) Takuya
Aoki (Japan Aerospace Exploration Agency)
This paper deals with the preparation, characterization, thermal properties and thermal reliability of
form-stable composite phase change materials (PCMs),
composed of n-octadecane, expanded vermiculite, and
perlite for thermal energy storage.
Long-term thermal stability of polyimide resin “TriA-X”
and carbon fiber reinforced TriA-X was evaluated.
Although the weight loss of the resin at 270°C was
significant because of oxidation, the composite
material maintained compression strength.
2. Materials Science
PO_2-49
FIRE RETARDANT ZEIN-BASED MATERIALS
Letizia Verdolotti (Institute for Polymers, Composite
and Biomedical Materials (IPCB)-CNR) Maria Oliviero
(Institute for Polymers, Composite and Biomedical
Materials (IPCB)-CNR) Marino Lavorgna (Institute
for Polymers, Composite and Biomedical Materials
(IPCB)-CNR) Salvatore Iannace (Institute for for
Macromolecular Studies) Giovanni Camino (Polytechnic of Turin) Paolo Vollaro (IMAST) Alberto Frache
(Polytechnic of Turin)
Combustion behavior of a protein zein (TPZ) and the
fire retardant effect of either lignin (AL) or ammonium
polyphosphate (APP) is studied. A combination of
the two has been identified to obtain a TPZ with a
satisfactory fire retardant behavior.
PO_2-50
INVESTIGATION OF DAMAGE IN COMPOSITE
STRUCTURES CAUSED BY SIMULATED LIGHTNING STRIKES
PO_2-51
PREPARATION AND FLAME RETARDANCY OF
POLYURETHANE COMPOSITES USING
MICROENCAPSULATION TECHNOLOGY
Gang Zhou (Loughborough University)
Weiwei Sun (C-Power (Technology) Ltd)
Ben Mahy (Loughborough University)
Wei Jen Chen (China University of Science and Technology)
Ming-Yuan Shen (China University of Science and
Technology) Chen-Feng Kuan (Far East University)
Hsu-Chiang Kuan (Far East University)
Jia-Ming Yang (Hung-Kuang University)
Chin-lung Chiang (Hungkuang University)
Abdelkibir Benelfellah (Institute Pprime)
Eric Lainé (Institute Pprime)
Mikael Gueguen (Institute Pprime)
Damien Halm (Institute Pprime)
Denis Bertheau (Institute Pprime)
Tom van Eekelen (Samtech - Siemens)
Fabrice Germain (Samtech - Siemens)
In this study, a novel microcapsulated flame retardant
was synthesized using in situ polymerization technology. The flame retardancy and thermal properties of
the Si-PU/OFAPP composite was higher than that of the
Si-PU/APP composite.
The project FireComp deals with the safety of pressurized hydrogen storage vessels subjected to fire. The
time to burst is simulated by two different thermomechanical models and compared to experimental data
(bonfires on real tanks).
PO_2-55
DISCRETE DAEM MODEL FOR THE STUDY OF
THE KINETICS OF THE THERMAL DEGRADATION
OF A LIGNIN NANOPARTICLE-REINFORCED
PHENOLIC FOAM
PO_2-56
EFFECT OF MULTI-WALLED CARBON NANOTUBES
ON MECHANICAL PROPERTIES OF CARBON FIBER
POLYURETHANE FOAM SANDWICH STRUCTURES:
OPTIMIZATION OF PARAMETERS USING
TAGUCHI’S DESIGN
A study of the direct effects of lightning strike in both
carbon/epoxy and E-glass/epoxy laminates has been
carried out. The key damage characteristics are fibre
fracture in tufting for carbon/epoxy and extensive
delamination for E-glass/epoxy.
PO_2-53
THERMAL AND REACTION TO FIRE PROPERTIES
OF CFRP UNDER VARIOUS HEAT IMPACT
SCENARIOS -SPECIFIC HAZARDS
PO_2-54
ELECTRICAL CONDUCTIVITY OF UNIDIRECTIONAL GLASS FIBRE REINFORCED COMPOSITE WITH
CNT-MODIFIED EPOXY MATRIX
Sebastian Eibl (Bundeswehr research institute for
materials, fuels and lubricants (WIWeB))
Andrey Aniskevich (InstitUniversity of Latvia) Vladimir
Kulakov (InstitUniversity of Latvia)
The work addresses specific dangers originating from
CFRP structures under thermal load. It investigates
effects of various types of heat loads, starting below
the max. operational temperature limit (135°C), up to
rapid matrix degradation (ca. 350°C).
The theoretical results predicted by the developed
model using micromechanical approach for the
CNT-epoxy nanocomposite filled with volume
content of CNT up to 1% agreed well enough with the
experimental data available.
Juan Carlos Domínguez (Complutense University of Madrid)
Belén Del Saz-Orozco (Universidad Complutense de Madrid)
Mercedes Oliet (Universidad Complutense de Madrid)
María Virginia Alonso (Universidad Complutense de Madrid)
F. Rodriguez (Complutense University of Madrid)
Julián García (Universidad Complutense de Madrid)
The main goal of this work is the study of the kinetics of
thermal degradation of phenolic and lignin nanoparticle-reinforced phenolic foams, and of the lignin
nanoparticles used as reinforcement through a discrete
distributed DAEM model.
PO_2-52
SIMULATION OF BURST PRESSURE OF HYPERBARIC HYDROGEN TANKS IN FIRE CONDITIONS
İdris Gürkan (Istanbul Technical University)
Elif Demir (Istanbul Technical University)
Hülya Cebeci (Istanbul Technical University)
Nanoparticle disperision into polymers is the most
critical issue, due to high surface energy of the
particles. In present work, carbon nanotubes are
dispersed in the rigid polyurethane foam and epoxy
resin using different methods.
PO_2-57
FABRICATION AND CHARACTERISATION OF
POLYURETHANE/SEPIOLITE POLYMER NANOCOMPOSITE FOAMS FOR ENHANCED ENERGY
ABSORPTION.
Ellen Pope (University of Bristol)
Jeroen van Duijneveldt (University of Bristol)
Fabrizio Scarpa (University of Bristol)
Sepiolite clay rods with various surface chemistries
were dispersed in a polyurethane foam precursor
before being foamed up with MDI. Mechanical tests
were performed to determine Young‘s Modulus, energy
dissipation and loss factor.
77
3. Material and Structural Behavior - Simulation & Testing
PO_3-01
A MESO-SCALE MODEL TO STUDY THE COMPRESSIVE STRENGTH OF WOVEN CARBON FIBER
REINFORCED PLASTICS
Jim Schormans (Eindhoven University of Technology)
Wouter Wilson (Eindhoven University of Technology)
Vikram Deshpande (University of Cambridge)
A method to homogenize fiber-tows is proposed that
enables the simulation of the formation of kink-bands
in woven laminates under compression. The method
is tested on a unidirectional composite as well as a
woven composite.
PO_3-05
STRESS MEASUREMENT DURING CRACK
PROPAGATION IN METAL MATRIX COMPOSITES
USING MICRO-RAMAN SPECTROSCOPY
Akm Asif Iqbal (University Malaysia Pahang)
Yoshio Arai (Saitama University)
The measurement of stress in the SiC particles during
crack propagation was investigated by micro-Raman
spectroscopy. A high decrease in stress was observed
with the interfacial debonding and with the SiC
particle fracture.
78
PO_3-02
A NUMERICAL SIMULATION OF MECHANICAL
PROPERTIES OF SMART POLYMER COMPOSITE
WITH MICROCAPSULES FOR DAMAGE SENSING
APPLICATIONS
Daiva Zeleniakiene (Kaunas University of Technology)
Vitalis Leisis (Kaunas University of Technology)
Paulius Griskevicius (Kaunas University of Technology)
Olga Bulderberga (Institute of Polymer Mechanics, University of Latvia) Andrey Aniskevich (InstitUniversity
of Latvia)
PO_3-03
ANALYSIS OF NOTCH EFFECT IN SHORT GLASS
FIBRE REINFORCED POLYAMIDE 6
Francisco T. Ibáñez-Gutiérrez (University of Cantabria)
Sergio Cicero (University of Cantabria)
Isidro Carrascal (University of Cantabria)
An analysis of the notch effect in SGFR-PA6 through
the evolution of the apparent fracture toughness and
the application of the Theory of the Critical Distances.
Also, the evolution of fracture micromechanisms has
been related with radius increase.
PO_3-04
CONSTRAINT CONDITIONAL FINITE ELEMENT
MODEL OF INTERFACIAL DEBONDING WITH
ANISOTROPIC FRICTION
Yamaguchi Takehiro (Yamaguchi University)
Koichi Goda (Yamaguchi University)
Ryuta Kitamura (Tokyo University of Science)
In this study, we defined a new CC-FEM which was
introduced anisotropic friction and genetic algorithm
in order to extend two-dimensional model to
three-dimensional version.
The mechanical behaviour of polymer composites with
polyvinyl acetate matrix filled with melamine-formaldehyde resin microcapsules was investigated. Such
composites as self-sensing materials could be used for
damage sensing applications.
PO_3-06
THE ANALYSIS OF STRESS STATE TYPES OF
COMPOSITE CONSTITUENTS IN THE CASE OF
TRANSVERSAL LOADING OF UNIDIRECTIONAL
LAMINATE
Boris Fedulov (Skolkovo Institute of Science and
Technology (Skoltech)) Alexander Safonov (Skolkovo
Institute of Science and Technology (Skoltech)) Andrey
Ushakov (Skolkovo Institute of Science and Technology
(Skoltech))
This research performs a material model for thermoplastic polymer with taking into account susceptibility
to the stress state type. All constants required for
stress analysis based on polyetheretherketone(PEEK)
thermoplastic material are demonstrated.
PO_3-07
DAMAGE BEHAVIOR AND MECHANICAL PROPERTIES IN CFRP AND GFRP ANGLE-PLY LAMINATES
Shinji Ogihara (Tokyo University of Science)
Nurul Nabihah Binti A. Hamid (Tokyo University of Science)
Vladimir Vinogradov (Newcastle University) Ryuta
Kitamura (Tokyo University of Science)
This study investigates the mechanical properties and
damage behavior and mechanical properties in CFRP
and GFRP angle-ply CFRP laminates with different
thicknesses.
PO_3-09
EVALUATION OF THE EFFECTS OF TUFTING ON
PERFORMANCE OF COMPOSITE T-JOINTS
PO_3-10
EXPERIMENTAL STUDY OF THE INTERLAMINAR
FRACTURE OF COMPOSITE MATERIALS IN MODE III
PO_3-11
HIGH RATE DELAMINATION FRACTURE OF
AEROSPACE COMPOSITES
Harry Clegg (University of Bristol)
James Kratz (University of Bristol)
Ivana Partridge (University of Bristol)
Giuseppe Dell‘Anno (National Composites Centre)
Issam Tawk (University of Balamand)
Jihad Rishmany (Mechanical Engineering)
Nicolas Saba (Mechanical Engineering)
Bassam Mahmoud (Mechanical Engineering)
Anastasios Toulitsis (Element Materials Technology)
Stefanos Giannis (Element Materials Technology)
Carbon fibre T-stiffened skin-stringer joints were
manufactured with through-thickness carbon fibre reinforcement. Comparisons are made with unreinforced
skin-stringer joints and changes in load carrying ability
of the joint are quantified.
The aim of this study is to conduct experiments for
mode III delamination based on the Modified Split
Cantilever Beam (MSCB) test. The mode III energy
release rate is presented for 3 different materials and
3 different specimen widths.
The effect of test rate on the fracture toughness under
Mode I and Mode II loading conditions for a CFRP
composite material was investigated. A range of
test speeds up to 1 m/s were studied. Software was
developed to capture the delamination growth.
PO_3-08
AN ASSESSMENT OF EXPERIMENTAL TECHNIQUES FOR MEASURING THE MODE I FRACTURE
TOUGHNESS OF UHMW-PE COMPOSITES
Torsten Lässig (Fraunhofer EMI)
Franziska Nolte (Fraunhofer EMI)
Werner Riedel (Fraunhofer EMI)
Michael May (Fraunhofer EMI)
The fracture toughness mode I is determined for a
UHMW-PE composite. Several Double Cantilever Beam
test setups were investigated. An alternative clamping
condition and specimen geometry are presented that
are suitable for flexible Composites.
PO_3-12
INFLUENCE OF DELAMINATION ON THE
MECHANICAL PROPERTIES OF COMPOSITE
SANDWICH-PANELS
Aleksandr Anoshkin (Perm National Research Polytechnic University) Valerii Zuiko (Perm National Research
Polytechnic University) M. A. Alikin (Perm National
Research Polytechnic University) A. V. Tchugaynova
(Perm National Research Polytechnic University)
This work is devoted to development of a methodology
based on the numerical simulation for assessment
of the effect of delamination on the mechanical
properties of composite sandwich panels with various
types of core – tubular, cellular or honeycomb.
3. Material and Structural Behavior - Simulation & Testing
PO_3-13
MODE I AND II FRACTURE TOUGHNESS TESTING
OF INTERLEAVES FOR BALLISTIC IMPACT
Daniel Turkenburg (TNO Materials)
Jamie Hartley (University of Bristol)
Hartmut Fischer (TNO Materials)
Geert Roebroeks (TNO Ballistics)
Carwyn Ward (University of Bristol)
Sander Gielen (TNO Materials)
Interleaves in fiber reinforced polymer laminates
have been varied to control the failure mechanism
associated to ballistic impact on composites. Material
synthesis, test-piece fabrication and mode I and mode
II test results are discussed.
PO_3-17
A FINITE ELEMENT MODEL FOR PLAIN WEAVE
FABRIC BASED ON AN INNER BEAM STRUCTURE
Benjamin Kaiser (Technische Hochschule Mittelhessen)
Thomas Pyttel (Technische Hochschule Mittelhessen)
Eberhard Haug (ESI Group)
Fabian Duddeck (Technical University of Munich)
The paper presents a finite shell element for plain
weave fabrics. It is designed for draping and forming
simulations. Instead of a classical constitutive law, a
unit cell is modeled with crossed beams.
PO_3-21
NUMERICAL SIMULATION OF TRIAXIAL WOVEN
CFRP UNDER TENSILE LOADING
Jun Koyanagi (Tokyo University of Science)
Erina Imai (Tokyo University of Science)
Ryo Higuchi (Graduate School of Tohoku University)
Akinori Yoshimura (Japan Aerospace Exploration
Agency)
Tomonaga Okabe (Tohoku University)
Satoru Yoneyama (Aoyama Gakuin University)
Takahira Aoki (University of Tokyo)
Triaxial woven CFRP is numerically modeled by finite
element analysis very accuately. Under a tensile
loading, strain distribution obtained numerically is
compared with that obtained experimentally. They
show good agreement.
PO_3-14
NUMERICAL STUDY OF THE RESPONSE OF
DYNAMIC PARAMETERS TO DEFECTS IN
COMPOSITE STRUCTURES
PO_3-15
EFFECT OF AUTOCLAVE CURE CYCLES ON
THE INTERFACIAL PROPERTIES OF
COMPOSITE LAMINATES
Grigorii Serovaev (Perm National Research Polytechnic
University)
Valery Matveenko (Perm National Research Polytechnic University)
Lihua Zhan (Central South University)
Wei Tan (Queen‘s University Belfast)
Tengfei Chang (Central South University)
Xingxing Ding (Central South University)
A numerical study of the frequency response to defect
of different size is carried out in the framework of
three models of delamination in a composite structure,
the advantages and drawbacks of each model are
estimated in the process of simulation.
PO_3-18
COMPACT TENSION AND COMPRESSION TESTING
OF BRAIDED COMPOSITES – CHALLENGES AND
LIMITATIONS
Sebastian Kilchert (Fraunhofer EMI)
Tobias Gerster (Fraunhofer EMI)
Matthias Nossek (BMW Group)
Jens Fritsch (Fraunhofer EMI) Michael May (Fraunhofer EMI)
The present publication aims to identify challenges and
limitations of existing compact tension and compression test procedures applied to braided Composites.
PO_3-22
VIRTUAL MECHANICAL TESTING OF A COMPLEX
3D WOVEN FABRIC: A UNIFIED SIMULATION
METHODOLOGY FOR DEFORMATION MECHANICS
OF TEXTILE STRUCTURES DURING TENSION,
SHEAR AND DRAPING
Lode Daelemans (Ghent University)
Jana Faes (Ghent University)
Samir Allaoui (Univ Orléans)
Gilles Hivet (Univ Orléans)
Wim Van Paepegem (Ghent University)
We show a viable simulation methodology which
allows for the virtual testing of fibrous materials such
as 3D woven fabrics based on the digital element
concept.
PO_3-16
MULTISCALE MODELING OF A HIGHLY REINFORCED THERMOPLASTIC COMPOSITE: FROM
MICROSTRUCTURAL SIMULATIONS OF THE
TRANSVERSE DAMAGE KINETICS TOWARDS
ENGINEERING STRUCTURE COMPUTATIONS.
Pierre-Alexis Poulet (MINES ParisTech)
Sébastien Joannès (MINES ParisTech)
Lucien Laiarinandrasana (MINES ParisTech)
Finite Element simulations based on representative
periodic cells highlighted the effects of the variability
of the microstructure on the stress-strain curve, as
well as on the evolution of the porosity in the matrix
between fibres.
PO_3-19
CHARACTERIZATION OF WRINKLING AND
DE-WRINKLING BEHAVIOUR OF WOVEN
FABRICS USING A MULTI-STEP BIAXIAL
BIAS EXTENSION TEST
Armin Rashidi Mehrabadi (University of British
Columbia) Abbas Milani (University of Bristol)
PO_3-20
EFFECT OF SPECIMEN WIDTH ON STRENGTH IN
OFF-AXIS COMPRESSION TESTS
Dennis Wilhelmsson (Chalmers University of
Technology)
Leif Asp (Chalmers University of Technology)
Renaud Gutkin (Swerea SICOMP)
Fredrik Edgren (GKN Aerospace)
A multi-step biaxial bias extension (MBBE) test
procedure is proposed to characterize forming and
flattening of wrinkles of different sizes at shear angles
below and above the locking, as both often seen in the
composites thermo-forming practice.
Compression tests have been performed according to
ASTM D6641 to check whether 12 mm is a sufficient
width for off-axis tests of a unidirectional Non Crimp
Fabric (NCF) reinforced carbon-fibre composite.
PO_3-23
STRESSES ALONG THE HOLE BOUNDARY OF
UNSYMMETRIC COMPOSITE LAMINATES VIA
BOUNDARY ELEMENT METHOD
PO_3-24
LINEARIZATION AND IMPLEMENTATION OF
VENU MODEL IN SMALL STRAIN THEORY FOR
POLYAMIDE 6.6
Chyanbin Hwu (National Cheng Kung University)
H. W. Chang (National Cheng Kung University)
Dimitrios Anagnostou (ENSAM ) George Chatzigeorgiou
(Arts et Métiers ParisTech) Jean-Luc Bouvard
(CEMEF-Centre de Mise en Forme des Mat´eriaux)
Yves Chemisky (Arts et Métiers ParisTech)
Fodil Meraghni (Arts et Métiers ParisTech)
Noelle Billon (CEMEF-Centre de Mise en Forme des
Mat´eriaux)
The unsymmetric composite laminates are analyzed
by the coupled stretching-bending boundary element.
To avoid the singular problem encountered on the
boundary node, a new method is proposed, which can
be used to calculate the stresses along the hole.
The VENU model, a visco-hyperelastic constitutive law
designed for amorphous rubbery polymers, has been
implemented in the small strain theory framework
and it has been validated through comparison with
experimental results in polyamide 6.6.
79
3. Material and Structural Behavior - Simulation & Testing
PO_3-25
MECHANICAL PERFORMANCE OF SHORT FIBER
CHAOTICALLY REINFORCED THERMOPLASTICS
AND THEIR PREDICTION.
PO_3-26
FATIGUE LIFE PREDICTION IN RUBBER
MATERIAL UNDER CYCLIC LOADS AT VARIABLE
TEMPERATURES
Izabella Rashkovan (UVICOM Co.Ltd)
Mark Kazakov (UVICOM Co.Ltd)
Changsu Woo (Korea Institute of Machinery & Materials)
H. S. Park (Korea Institute of Machinery & Materials)
The damage of short carbon fiber randomly reinforced
thermoplasts has been investigated. It was offered
the fracture model and enough simple method of
calculation of their strength.
In this paper, fatigue life prediction methodology
of vulcanized natural rubber was proposed by
incorporating the finite element analysis and fatigue
damage parameter determined from fatigue test.
PO_3-27
FATIGUE LIFE PREDICTION OF THICK CFRP
LAMINATES WITH TOUGHENED INTERLAMINAR
LAYERS IN THE OUT-OF-PLANE DIRECTION AT
DIFFERENT STRESS RATIOS
Atsushi Hosoi (Waseda University) Shiwon Tsuge
(Waseda University) Sen Seki (Waseda University)
Yuzo Fujita (Composite Materials Research Laboratories, Toray Industries) Ichiro Taketa (Toray)
Hiroyuki Kawada (Waseda University)
The fatigue properties in the out-of-plane direction
of thick CFRP laminates with toughened interlaminar
layers were evaluated at different stress ratios. A
model proposed to predict the fatigue life showed
good agreement with experimental results.
PO_3-29
USE OF NON-CONTACTING STRAIN MEASUREMENT TECHNIQUES IN FATIGUE TESTING OF
POLYMER MATRIX COMPOSITES
Peter Bailey (Instron)
M. Higham (Instron)
This paper presents a short investigation of the
benefits of non-contact strain measurement for
monitoring and control of fatigue tests on composites,
better simulation, and helping understand the effects
of strain rate on properties.
PO_3-31
DYNAMIC CHARACTERISTICS OF COMPOSITE
TAPERED TUBES
Sang-Kyun Hwang (Andong National Unversity) Hui
Yun Hwang (Andong National Unversity)
Kodjo Mawuli Armattoe (Institut de Recherche Technologique (IRT) Jules Verne) Patrick Rozycki (Institut
de Recherche en Génie Civil et Mécanique)
Mamadou Mbacke (Institut de Recherche Technologique (IRT) Jules Verne)
Maikson Luiz Passaia Tonatto (Universidade Federal do
Rio Grande do Sul) Maria Madalena de Camargo Forte
(Universidade Federal do Rio Grande do Sul)
Volnei Tita (USP) Sandro Amico (Universidade Federal
do Rio Grande do Sul)
A progressive fatigue damage modeling is proposed in
order to simulate the fatigue behavior of unidirectional
curved structure made of carbon fiber composite
materials.
PO_3-32
INVESTIGATION OF NOVEL BAGASSE FIBRE
HYBRID CRASH BARRIERS USING NUMERICAL
SIMULATION
Karthik Ram Ramakrishnan (Ecole des Mines d‘Alès)
Krishna Shankar (Univeristy of New South Wales, Canberra)
Boju Hoo (University of New South Wales ) Alan Fien
(University of New South Wales )
This paper presented the viability of designing
deformable hybrid crash barriers with the natural
fibres derived from sugarcane bagasse. Full-scale crash
simulation was conducted using FE software LS-Dyna
on two designs of hybrid composites.
This paper dealts with the influence of environmental
conditions (temperature and humidity) and strain rate
effect on the behavior of woven glass fiber reinforced
polyamid 66.
PO_3-33
NUMERICAL MODELING OF DYNAMIC RESPONSE
OF FABRIC MATERIALS SUBJECTED TO IMPACT
LOADING
PO_3-34
RESEARCH OF MECHANICAL PROPERTIES OF
HIGHLY-FILLED POLYMER COMPOSITES UNDER
COMPLEX HARMONIC LOADINGS
PO_3-35
INFLUENCES OF WATER ABSORPTION ON THE
MECHANICAL PROPERTIES OF DISCONTINUOUS
CF/PA6 AND CF/PP
Efthimis Giannaros (University of Patras)
Athanasios Kotzakolios (University of Patras)
Stavros Tsantzalis (University of Patras)
George Sotiriadis (University of Patras)
Vassilis Kostopoulos (University of Patras)
Andrey Yankin (Perm National Research Polytechnic
University) Roman Bulbovich (Perm National Research
Polytechnic University) Valery E. Wildemann (Perm
National Research Polytechnic University)
Stanislav Slovikov (Perm National Research Polytechnic University)
Hao Piao (University of Tokyo)
Yoshiaki Kiryu (University of Tokyo)
Lubai Chen (University of Tokyo) Shinichiro Yamashita
(University of Tokyo) Haowen Wei (University of Tokyo)
Isamu Ohsawa (University of Tokyo)
Jun Takahashi (University of Tokyo)
In this work, nonlinear representations of stress and
strain under two-frequency loadings were presented,
and it was proposed to describe dynamic modules and
loss angles by polynomials and to use a time-temperature superposition.
Influences of water absorption on the mechanical
properties of discontinuous CF/PA6 composites were
investigated. The mechanical properties of CF/PA6
composite present relatively present relatively high
sensitivity on the water absorption.
The present research investigates the dynamic response of fabric materials subjected to impact loading.
The major purpose of study is the implementation,
calibration and validation of meso-scale technique and
material model for fabrics modeling.
80
PO_3-30
EXPERIMENTAL AND NUMERICAL CHARACTERIZATION OF THE HYGROTHERMAL AND STRAINRATE DEPENDENT BEHAVIOUR OF WOVEN GLASS
FIBRE REINFORCED POLYAMIDE
PO_3-28
PROGRESSIVE FATIGUE DAMAGE MODELING
OF COMPOSITE CURVED STRUCTURES USED IN
OFFLOADING HOSES
PO_3-36
PREDICTION OF TENSILE CREEP FAILURE TIME
Yoshiki Kobayashi (Kanazawa Institute of Technology)
Masayuki Nakada (Kanazawa Institute of Technology)
Yasushi Miyano (Kanazawa Institute of Technology)
We propose the statistical prediction of creep failure
time under the tension loading along the longitudinal
direction of unidirectional CFRP based on the
viscoelasticity of matrix resin. The applicability of our
method is discussed experimentally.
3. Material and Structural Behavior - Simulation & Testing
PO_3-37
STATISTICAL LIFE TIME PREDICTION FOR
UNIDIRECTIONAL CARBON FIBER REINFORCED
THERMOPLASTICS UNDER CREEP LOADING
PO_3-38
THE IMPACT OF ENVIRONMENTAL STRESS
ON THE MECHANICAL BEHAVIOR OF
FIBER-METAL-LAMINATES WITH
ELASTOMER INTERLAYERS (FMEL)
Yoko Morisawa (Kanazawa Institute of Technology)
Masayuki Nakada (Kanazawa Institute of Technology)
Yasushi Miyano (Kanazawa Institute of Technology)
Matthias Stoll (Karlsruhe Institute of Technology)
Kay Weidenmann (Karlsruhe Institute of Technology)
The statistical creep failure time under tension
loading for unidirectional CFRTP is predicted based
on the viscoelastic behavior of matrix. The validity
of predicted results is cleared by comparing with the
experimental results.
CFRP-Aluminum-Laminates with an elastomer interlayer are potentially damaged when subject to thermal
cycling. Flexural properties were used to determine
the residual properties and evaluate the influence of
thermal cycling on the laminate.
PO_3-41
DESIGN OPTIMIZATION OF CFRP RECTANGULAR
BOX SUBJECTED TO ARBITRARY LOADINGS
PO_3-42
FLEXURAL EXPERIMENTAL ANALYSIS COUPLED
TO AN ACOUSTIC EMISSION STUDY OF A CURVED
SANDWICH STRUCTURES MADE BY FILAMENT
WINDING PROCESS
Qitao Guo (University of Tokyo)
Zaoyang Li (University of Tokyo)
Toshiro Ohori (University of Tokyo)
Jun Takahashi (University of Tokyo)
A rectangular box subjected to flexural and torsional
loadings was optimized by using multi-material
solution and thickness optimization. Weight reduction
of 64.55% and 29.43% by CFRP can be achieved
considering the flexural and torsional rigidity.
PO_3-45
NUMERICAL EXPERIMENTAL STUDY ON INFLUENCE OF MULTIWALLED CARBON NANOTUBE
ON INTERFACE FRACTURE OF SANDWICH
COMPOSITE
Mohamed Haddad (Arts et Metiers ParisTech)
Laurent Guillaumat (Ecole Nationale Supérieur d‘Arts
et Metiers)
This study examines the quasi-static mechanical
behavior of curved sandwiches, made by filament
winding process of glass-fiber/vinylester composite
skins with different types of foams, focusing on
flexural deformation coupled to Acoustic Emission.
PO_3-39
NON-DAMAGING AND SCALEABLE CARBON
NANOTUBE SYNTHESIS ON CARBON FIBRES
Hugo De Luca (Imperial College London)
David Anthony (Imperial College London)
Hui Qian (Imperial College London)
Emile Greenhalgh (Imperial College London)
Alexander Bismarck (University of Vienna)
Milo Shaffer (Imperial College London)
The continuous production of carbon nanotube-grafted-carbon fibres is demonstrated in an open chemical
vapour deposition reactor, whilst maintaining the
underlying original carbon fibres mechanical
properties.
PO_3-43
INSTRUMENTED SPHERICAL INDENTATION
BEHAVIOR OF MECHANICAL PROPERTIES OF
METALLIC FOAMS: CHARACTERIZATION
Ali Nayebi (Shiraz University)
A. Surmiri (Shiraz University)
Spherical indentation of metallic foams is simulated
by FEM and the load - displacement is obtained.
The stress–strain curves and the Elastic modulus of
different metallic foams are characterized by the new
proposed relations of the indentation test.
PO_3-46
SCALING EFFECTS IN THE COMPRESSION
BEHAVIOR OF SANDWICH STRUCTURES WITH
CORRUGATED COMPOSITE CORES
PO_3-47
THE EFFECT OF SURFACE FINISHING OPTIONS
FOR CORE MATERIALS ON MECHANICAL PROPERTIES OF SANDWICH STRUCTURES
Alak Kumar Patra (Indian Institute of Technology
Kharagpur) Nilanjan Mitra (Indian Institute of
Technology Kharagpur)
Jin Zhou (University of Liverpool)
Z. Guan (University of Liverpool)
Rehan Umer (Khalifa University)
S. Balawi (Khalifa University)
Wesley Cantwell (Khalifa University)
Cihan Kaboglu (Imperial College London)
Soraia Pimenta (Imperial College London)
Andy Morris (EDF Energy)
John P. Dear (Imperial College London)
Finite element analysis (FEA) is followed by
experiment on interface fracture toughness (GIC)
of sandwich composite with and without MWCNT.
MWCNT improved GIC by cost effective methodology.
FEA results agree with experiment, HRTEM and FESEM
analyses.
This project considers the mechanical properties and
scaling effects in the compression behavior of sandwich
structures manufactured using glass fibre/epoxy and
carbon fibre/epoxy curvilinear composite cores.
This work studies the effect of surface finishing
options for core materials on the mechanical
properties of sandwich structures. It is shown that
surface finishing options increase the shear strength of
these structures.
PO_3-40
ANALYSIS OF PARAMETRIC INFLUENCE ON
MACHINING IN DRY DRILLING CARBON FIBER
REINFORCED EPOXY COMPOSITES
Mohamed Faycal Ameur (Ecole Nationale Superieure
de Technologie) Malek Habek (Université de Picardie
Jules) Mohamed Kenane (Laboratoire des Sciences
et Génie des Matériaux (Faculté de Génie Mécanique
et Génie des Procédés USTHB) Hamdi Aouici (Ecole
Nationale Supérieure de Technologie) Mohamed
Cheikh (Université de Toulouse)
PO_3-44
MODEL OF DAMAGE EVOLUTION IN ELEMENTS
OF SANDWICH PANELS WITH TRANSVERSELY
ISOTROPIC PROPERTIES USING MULTI-CRITERIA
APPROACH
Mikhail Tashkinov (Perm National Research Polytechnic
University) Valery E. Wildemann (Perm National Research
Polytechnic University) Aleksandr Anoshkin (Perm
National Research Polytechnic University) Anatoliy Tashkinov (Perm National Research Polytechnic University)
The study presents continuum mechanical models of
nonlinear deformation, accumulation of damage and
failure in composite structure. The approach based
on a set of failure criteria, which allows to distinguish
damage mechanisms, is proposed.
PO_3-48
LAYERWISE MODELS FOR THE STUDY OF HYBRID
MULTILAYERED STRUCTURES.
Rawad Baroud (Ecole des Ponts ParisTech)
Jean-François Caron (Navier Laboratory, Ecole des
Ponts ParisTech)
Robert Le Roy (Navier Laboratory, Ecole des Ponts
ParisTech)
Boumedienne Nedjar (Ecole des Ponts ParisTech)
A Layerwise Stress approach is used for the calculation
of a civil engineering complex structure as combining
wood innovation, crossed and openwork plywood, and
a high performance concrete slab. Comparisons with
other models and experiments are made.
81
3. Material and Structural Behavior - Simulation & Testing
PO_3-49
MICRO-CT ANALISYS OF INTERLAMINAR GRADED
INTERFACE STRENGTH (IGIS) COMPOSITES
BASED ON A THERMOPLASTIC MATRIX
Luigi Sorrentino (National Research Council of Italy)
Pietro Russo (Consiglio Nazionale delle Ricerche)
Fabrizio Sarasini (Università di Roma La Sapienza)
Jacopo Tirillò (Università di Roma La Sapienza)
Fabienne Touchard (P‘ Institute) Laurence Chocinski-Arnault (Institute Pprime) David Mellier (Institute Pprime)
MicroCT analysis was used to investigate the actual
damage mechanisms occurring in IGIS laminates and
showed how the graded interface strength is capable
of shifting fibre breakage at higher impact energies
and a allow higher elastic recovery.
PO_3-53
EXPERIMENTAL INVESTIGATION OF MOLDED-IN
THREADS AS A NEW SOLUTION FOR LOAD
TRANSFER IN THICK-WALLED GFRP APPLICATIONS
Marcel Bücker (Schäfer MWN GmbH)
Jiri Duchoslav (Johannes Kepler University Linz)
Nicole Motsch (Institute for Composite Materials)
When forming threads directly in thick walled GFRP
instead of cutting them, the fatigue behavior can be
increased significantly. 16 test series were done, with
variation of thread, manufacuring method, laminate
and load direction.
82
PO_3-50
SIMULATION OF A METAL-THERMOPLASTIC
COMPOSITE ASSEMBLY
PO_3-51
STAMP FORMING OF STEEL-BASED FIBRE METAL
LAMINATE
Simon Paroissien (Institut de Recherche Technologique (IRT) Jules Verne)
Patrick Rozycki (Institut de Recherche en Génie Civil
et Mécanique)
Thierry Renault (Faurecia)
Davood Rahiminejad (Australian National University)
Adrian Lowe (Australian National University)
Shankar Kalyanasundaram (Australian National
University)
This paper deals with an original way to simulate
efficiently a complex multimaterial CMT Pin interface.
Both a numerical and a multi scale analytical model
are proposed and compared to an experimental
campaign.
Stamp forming of a steel-based Fibre Metal Laminate
was studied using a hemispherical punch at different
blank holder forces and preheat temperatures. The
strain evolution pattern was analysed with an in-situ
3D photogrammetric measuring system.
PO_3-54
EXPERIMENTAL INVESTIGATION ON THE EFFECT
OF BOLT-HOLE PERPENDICULARITY ERROR ON
JOINT STRENGTH
PO_3-55
FAILURE ANALYSIS OF ULTRA-THIN CHOPPED
CARBON FIBER TAPE REINFORCED THERMOPLASTIC IN MECHANICAL JOINTS
Xueshu Liu (Dalian University of Technology) Hang Gao
(Dalian University of Technology) Yongjie Bao (Dalian
University of Technology) Yidi Wang (Dalian University
of Technology) Rupeng Li (Shanhai Aircraft Manufacturing) Lei Chen (Shanhai Aircraft Manufacturing)
Linshu Meng (University of Tokyo)
Hirokuni Wataki (University of Tokyo)
Isamu Ohsawa (University of Tokyo)
Jun Takahashi (University of Tokyo)
In this paper, an experimental study was performed to
investigate the influence of perpendicularity error of
hole on the joint strength. The specimens used in this
study are made of carbon fiber/epoxy prepreg tapes
IMS-194/CYCOM 977-2 with symmetrical lay-ups.
Pin-loaded test of Ultra-thin chopped carbon fiber
tape reinforced thermoplastic (UT-CTT) material
was conducted, special failure modes different from
laminates composite were observed in failure process
of UT-CTT, which shows very stable failure.
PO_3-52
BUCKLING ANALYSIS OF ANISOTROPIC
THIN-WALLED CIRCULAR CYLINDRICAL SHELLS
SUBJECT TO COMBINED LOADING
Esmaeal Ghavanloo (Shiraz University)
S. Ahmad Fazelzadeh (Shiraz University)
The governing equations are derived and analytical
solution is presented for predicting the buckling
behavior of the anisotropic thin-walled cylindrical
shells subjected to combined loads by using the Flügge
shell theory and complex method.
PO_3-56
ENHANCED TENSILE STRENGTH CFRP ADHESIVE
JOINT CONSTRUCTED FROM CARBON FIBER-REINFORCED PLASTIC AND DRY CARBON FIBER
LAMINATES
Mahmoud Abusrea (Kyushu University)
Kazuo Arakawa (Kyushu University)
This paper introduces three adhesive joints: the first
is the original staircase joint and the other two are
improved staircase joints.
PO_3-57
INFLUENCE OF THE TRACTION-SEPARATION
COHESIVE LAW ON THE FAILURE LOAD OF
ADHESIVELY-BONDED REPAIRS
PO_3-58
LAP SHEAR STRENGTH OF SIMILAR GF/PP
ADHERENDS BONED WITH TWO-PART ACRYLIC-BASED ADHESIVE
PO_3-59
OPTIMIZED HYBRID METAL-THERMOPLASTIC
COMPOSITE JOINTS USING LASER MICROTEXTURING AS A SURFACE TREATMENT
PO_3-60
RESEARCH ON THE INTERFERING EFFECT OF
METAL INSERTS IN FIBER-REINFORCED-PLASTICS MANUFACTURED BY THE RTM PROCESS
Lorena M. Fernandez-Cañadas (Universidad Carlos III
de Madrid) Elena M. Moya-Sanz (Universidad Carlos
III de Madrid) Inés Ivañez (Universidad Carlos III de
Madrid) Sonia Sanchez-Saez (Universidad Carlos III
de Madrid)
Kimiyoshi Naito (NIMS) Hiroyuki Oguma (National
Institute for Materials Science)
Pilar Rey Rodríguez (AIMEN Technology Centre)
Clara Palleiro Palmou (AIMEN Technology Centre)
Nerea Otero Ramudo (AIMEN Technology Centre)
Jonas Wilkening (Karlsruhe Institute of Technology)
Florentin Pottmeyer (Institute For Applied Materials
IAM-WK)
Kay Weidenmann (Karlsruhe Institute of Technology)
Laser textured aluminium parts were joined to fibre
reinforced thermoplastic composite coupons by
ultrasonic welding. The best laser microtexture pattern
and joint configuration were selected to perform
structural hybrid metal-composite joints.
This paper aims on the systematic research on the
interfering effects of inserts in CFRP parts. The
specimens are tested under quasi-static tensile loads,
while the load transfer is carried out by the laminate
itself instead of the insert.
3. Material and Structural Behavior - Simulation & Testing
PO_3-61
PO_3-63
PO_3-64
PO_3-65
3. Material and Structural BehaviorPO_3-62
- Simulation & Testing
EFFECT OF DWELL TIME ON THE
EFFECT OF REPAIR DESIGN AND SURFACE RISK ASSESSMENT OF MECHANICAL
EXPERIMENTAL AND NUMERICAL
EVALUATION OF THE GEOMETRY OF
PROPERTIES OF COMPOSITE
TREATMENT ON ADHESIVELY BONDED FAILURE BY DETERMINING
ANALYSIS OF REPAIRED STIFFENED
SINGLE-LAP ADHESIVE JOINTS IN
PO_3-61
PO_3-62
PO_3-63
PO_3-64 COMPOSITE LAMINATES
MATERIALS
COMPOSITE
REPAIRS
PROBABILITY OF FLEXURAL
CFRP PANELS UNDER COMPRESSION
EFFECT OF DWELL TIME ON THE PROPERTIES OF
EFFECT OF REPAIR DESIGN AND SURFACE
TREATMENT
RISK ASSESSMENT
OF MECHANICAL FAILURE
EXPERIMENTAL AND NUMERICAL ANALYSIS
STRENGTH
DETERIORATION
IN
COMPOSITE
MATERIALS
ADHESIVELY
BONDED
REPAIRS
BY DETERMINING
PROBABILITY
FLEXURAL
STIFFENED
CFRP
PANELS UNDER
Sanjeev
Rao (Aerospace
Research and
Florian RöperON
(Polymer
Competence
CenterCOMPOSITE
Dalong DongOF
(Shanghai
Jiao Tong OF REPAIRED
Elena
M. Moya-Sanz
(Universidad
Carlos
EPOXYGLASS LAMINATES
AFTER
Innovation Centre)
Leoben GmbH) Markus Wolfahrt (Polymer
University)
III de Madrid)
STRENGTH
DETERIORATION
IN
EPOXYGLASS
COMPRESSION
LONG-TERM WATER IMPACT
Sanjeev Rao
(Aerospace
Research
and
Maryam
Al-Kuwaiti
(Strata
Manufacturing)
CompetenceFlorian
CenterRöper
Leoben
GmbH)Competence Center Leoben GmbH)
Hai Wang (Shanghai
Jiao Tong University)
Lorena M. Fernandez-Cañadas (Universi(Polymer
LAMINATES AFTER LONG-TERM
WATER IMPACT
Innovation
Centre)
Vaughan
Barber
(Strata Manufacturing)
Georg Kucher
(FACCWolfahrt
Operations
GmbH)Competence
Xiang Zhou (Shanghai Jiao Tong University)
Carlos III
Madrid)
Markus
(Polymer
Center
Leoben
Dalong Dongdad
(Shanghai
JiaodeTong
University)
Aneta
Krzyzak
(Polish Air Force Academy)
Maryam
Al-Kuwaiti
Manufacturing)
A.
Abusafieh
(Strata(Strata
Manufacturing)
Andreas Bubestinger
(FACCKucher
Operations
Inés Ivañez
Carlos III de
GmbH) Georg
(FACC Operations GmbH)
Hai Wang (Shanghai
Jiao(Universidad
Tong University)
Aneta Krzyzak (Polish Air Force Academy)
This paper presents an experimentalXiang Zhou (Shanghai
TheGmbH)
paper presents how the risk of
VaughanCantwell
Barber (Strata
Wesley
(KhalifaManufacturing)
University)
GmbH)
Madrid) Jiao Tong University)
Andreas Bubestinger (FACC Operations
numerical
study
on the mechanical
failure by flexural strength
changes
A. Abusafieh (Strata Manufacturing)
Gerald PinterGerald
(Montanuniversitaet
Leoben)
Shirley Garcia-Castillo (Universidad Carlos
Pinter (Montanuniversitaet
Leoben)
Thetest
paper
presents how and
the risk
of failure
by flexural
Reserach
has been
carriedUniversity)
out to examine
behaviors
CFRP
stiffened
depending on the periodstrength
of watertest
impact,
Wesley Cantwell
(Khalifa
III de Madrid)
an experimental and numerical
changes depending
onofthe
period
of panels This paper presents
the effect of longer soak time on the
A combination
of corona and
chemical
two
of initial
pressure
at production ofwater
laminates
and
A combination
of wet
corona
and wet chemical
surface
study on the mechanical behaviors of CFRP stiffened
impact,
pressure atcontaining
production
of types
laminates
and defects
mechanical
material
of the the effect
surface treatment
is assessed.
Furthermore,
with three repair methods i.e. mechanical
type of glass
Reserach
hasand
been
carriedproperties
out to examine
treatment
is assessed.
Furthermore, the influence
of fibre preparation.
panels containing two types of initial defects with
the type of glass fibre preparation.
matrix
and
thetime
composite
the influencescarf
of scarf
angle,
adhesive
repair, adhesively bonded repair andthree
scarfrepair methods i.e. mechanical repair, adhesively
of
longer
soak
on the part.
mechanical and material
angle,
adhesive
typetype
and surface treatment on
treatment
on theperformance
mechanical of adhesively bonded
patch repair.
properties of the matrix and the composite part. and surface the
mechanical
bonded repair and scarf patch repair.
performancecomposite
of adhesively
bonded
composrepairs
is investigated.
ite repairs is investigated.
4. Experimental Techniques
PO_4-01
ANALYSIS OF POLYMERIZATION SHRINKAGE
VECTORS OF PHOTO-CURED DENTAL COMPOSITE
In-Bog Lee (Seoul National University)
Hyun-Jeong Kweon (Seoul National University)
Jin-Young Kim (Seoul National University)
The polymerization shrinkage vectors of dental
composite during photo-curing was investigated using
a particle tracking method.
PO_4-02
IN-SITU MICROFOCUS X-RAY MONITORING
OF DAMAGE ACCUMULATION IN COMPOSITE
BULKHEAD UNDER LOADING
PO_4-03
USING ORIENTATIONS‘S DETECTION TO
COMPUTE ELASTIC PROPERTIES ON A COMPLEX
TEXTURE OF 3D C/C COMPOSITE
PO_4-04
NON-DESTRUCTIVE DETERMINATION OF THE LOCAL FIBER VOLUME CONTENT IN FLAT AL(OH)3FILLED SMC PARTS FROM X-RAY PROJECTIONS
Aleksandr Anoshkin (Perm National Research Polytechnic University) Valerii Zuiko (Perm National Research
Polytechnic University) Vladimir Osokin (Perm National
Research Polytechnic University) Pavel Pisarev (Perm
National Research Polytechnic University)
Morgan Charron (LCTS) Guillaume Couegnat (University of Bordeaux) Olivier Caty (University of Bordeaux)
A. Dekeyrel (Herakles (SAFRAN))
Gerard Vignoles (University of Bordeaux)
Benjamin Bertram (Karlsruhe Institute of Technology)
Pascal Pinter (Karlsruhe Institute of Technology) Kay
Weidenmann (Karlsruhe Institute of Technology)
In present work the qualitative and quantitative analysis of micro damages appearing at various loading
conditions in bulkhead partition made of CFRP was
done using the microfocus X-ray monitoring method.
PO_4-05
MONITORING OF THE MECHANICAL BEHAVIOR
OF A COMPOSITE MATERIAL WITH HIGH
PERFORMANCE BY FBG SENSORS
PO_4-06
HIGH TEMPERATURE MECHANICAL CHARACTERIZATION OF MICRO- AND MESO-INTERFACES IN A
3D CARBON-CARBON COMPOSITE
F. Bernardo (ENEA) Piero De Fazio (ENEA)
Francesco Grandizio (ENEA) Massimiliano Grieco
(ENEA) Giuseppe Montesano (ENEA)
Adrien Gillard (Laboratoire des Composites ThermoStructuraux (LCTS)) Guillaume Couegnat (University of
Bordeaux) Stephane Jounnigot (University of Bordeaux)
Olivier Caty (University of Bordeaux) Sylvain Chupin
(CEA) Gerard Vignoles (University of Bordeaux)
This paper aims to verify the performance of a measuring deformation technique using optical fibers sensors
(FBG) applied to fiber-reinforced concrete operating
in a climate adverse environment, in particular the
marine environment
The purpose of this study is to estimate the effective
elastic properties of a complex and tangled material,
a 3D carbon/carbon composite with needle-stitched
woven textile reinforcement, using orientation
detection.
Support vector machines (SVM) can be employed to
estimate the fiber volume content (FVC). For low errors
below 1 Vol.-%, the SVM was trained using the same
matrix composition and image aquisition geometry
whereas FVCs and thicknesses were varied.
Push-out tests were conducted on a 3D Carbon-Carbon
composite to study the micro- and meso-interface
fracture mechanisms. Monotonic and cycled push-out
tests brought characteristic values such as strength,
dissipated energy and friction.
83
5. Manufacturing Technologies
PO_5-01
LOWFLIP - DRAPING SIMULATION OF PREPREGS
AT MESOSCOPIC AND MACROSCOPIC LEVEL
PO_5-02
ON-LINE MIXING RTM PROCESS SIMULATION
TREATING DUAL-SCALE FLOW
Mathias Engelfried (University of Stuttgart) Tomáš
Nosek (Mecas ESI s.r.o.) Frieder Heieck (University of
Stuttgart) Patrick Böhler (University of Stuttgart) Peter
Middendorf (University of Stuttgart)
Mathieu Imbert (ESI Group)
Emmanuelle Abisset-Chavanne (Ecole Centrale Nantes)
Sébastien Comas-Cardona (Ecole Centrale de Nantes)
David Prono (ESI Group)
Different mesoscopic and macroscopic simulation
approaches to predict the draping behaviour of
prepreg materials are presented. The material models’
generation as well as their validation by experiments
are discussed.
PO_5-05
IN-SITU MONITORING AND SIMULATION OF
CURE-PROCESS OF CFRP USING OPTICAL FIBER
SENSORS
Tatsuro Kosaka (Kochi University of Technology)
G. Ueyama (Kochi University of Technology)
K. Kusukawa (Kochi University of Technology)
In-situ measurement method of degree-of-cure of FRP
using optical fiber sensors was developed and applied
to monitor cure process of CFRP.
PO_5-09
HYBRID, NEAR-NET-SHAPE AND NET-SHAPE
MANUFACTURING OF COMPOSITE PARTS USING
TOWPREG
Jan Hodde (BMW AG)
Matthias Meyer (BA Composites GmbH)
Stefan Geh (SGL Carbon GmbH)
360° analysis of low cost manufacturing with TowPreg.
PO_5-03
EXPERIMENTAL AND NUMERICAL STUDY OF THE
TOOL-PART INTERACTION IN FLAT AND DOUBLE
CURVATURE PARTS
PO_5-04
CORRELATION OF FLOW INDUCED STRAIN
STATES AND YOUNG’S MODULUS IN CARBON
REINFORCED MOULDING COMPOUNDS
Onur Yüksel (Bogazici University)
Kenan Cinar (Bogazici University)
Nuri Ersoy (Bogazici University)
Markus Reiß (BMW AG)
Johannes Eschl (BMW Group)
Frank Henning (Karlsruhe Institute of Technology)
A new flexible, accurate and efficient dual-scale simulation approach has been developed to treat on-line
mixing RTM injections. First results reveal significant
differences to classical single-scale simulations for
highly reactive injection cases.
A 3-D numerical model, which is modified and
verified with respect to overall deformation field of
manufactured parts and enhanced by experimental
measurement of tool part interaction, is developed to
predict the process induced deformations.
This study investigates the coherence of the strain a
SMC-material experiences in the flow process and the
change in fibre orientation. A method is introduced to
correlate calculated strain with mechanical values in
order to assess fibre orientation.
PO_5-06
MECHANICAL CHARACTERIZATION OF COMPOSITE MATERIALS FROM CURVED STRUCTURES
PO_5-07
TOOLING OPTIMIZATION FOR COMPOSITE
MATERIAL PARTS
Mathilde Crozatier (Arts et Metiers ParisTech)
Svetlana Terekhina (Ecole Nationale Supérieur d‘Arts
et Metiers)
Frédéric Dau (Ecole Nationale Supérieur d‘Arts et
Metiers)
Laurent Guillaumat (Ecole Nationale Supérieur d‘Arts
et Metiers)
Alberto Mazarro (FIDAMC)
Aquilino Garcia (FIDAMC)
PO_5-08
VISUALISING PROCESS INDUCED VARIATIONS
IN THE MANUFACTURE OF TUFTED SANDWICH
PANELS
In order to carry out mechanical characterization,
experiments of radial compression are conducted on
composite ring. An inverse approach is adopted to get
the elastic properties by Finite Element Method (FEM),
using an optimization process.
PO_5-10
OPTIMISING HIGH-THROUGHPUT, AUTOMATED
PREFORM PRODUCTION WITH NON-LINEAR
SIMULATION OF THE PICK AND PLACE PROCESS
FOR TECHNICAL FABRICS
Christian Doersch (Fraunhofer IWES)
Harsha Tummala (Fraunhofer IWES)
Oliver Bagemiel (Fraunhofer IWES)
Handling of textile blanks and cuttings for the
production of composites is still complex. To reduce
complexity in development of such handling processes
there has been set up a digital tool to simulate and
calculate optimal pick-up locations.
84
This Project studies manufacturing process optimization for complex composite materials parts trying to
reduce costs. Springback effect and tooling thermal
behaviour are taken into account to design an optimal
tool and curing cycle.
Emily Withers (University of Bristol)
James Kratz (University of Bristol)
Ian Hamerton (University of Bristol)
Carwyn Ward (University of Bristol)
This paper presents the development of a test bed
which permits observation of loop formation during
tufting. Needle insertion force data were obtained
which along with the visual analysis aids understanding variation caused by the process.
PO_5-11
MICRO-COMPUTED TOMOGRAPHY MEASUREMENT OF THE FIBRE MISALIGNMENT IN THE INAND OUT-OF-AUTOCLAVE AFP/ATL COMPOSITES
PO_5-12
CONTINUOUS TAPE LAYUP MOLDING OF CFRTP
USING NEAR-INFRARED HEATING AND HIGH
FREQUENCY INDUCTION ROLLER HEATING
Nghi Nguyen (KU Leuven)
Mahoor Mehdikhani (KU Leuven)
Ilya Straumit (KU Leuven)
Larissa Gorbatikh (KU Leuven)
Stepan Lomov (KU Leuven)
Daiki Tanabe (Osaka University)
Fumio Kubohori (Kindai University)
Shota Imamura (Kindai University)
Hongfei Jiang (Kindai University)
Kazuaki Nishiyabu (Kindai University)
The paper presents a method for characterization
of fibre misalignment in-plane and out-of-plane of
composite laminates manufactured by automated fibre
placement/tape laying (AFP/ATL) using for assessment
of the precision of tow placements process.
Tetsusei Kurashiki (Osaka University) This study
aimed to predict the optimum processing condition
for thermoplastic tape laying. It was found that the
near infrared heating was required for removing the
moisture contained in prepreg tape.
5. Manufacturing Technologies
PO_5-13
IN-SITU CONSOLIDATION OF POLYAMIDE (PA)
COMPOSITES BY AUTOMATED PLACEMENT
TECHNOLOGY
Fernando Rodríguez (FIDAMC)
Isabel Martín (FIDAMC) Katia Fernández (FIDAMC)
FIDAMC has developed a thermoplastic fiber placement technology based on laser beam heating that
will enable consolidation of thermoplastic material
(polyamide) out of autoclave.
PO_5-14
INFLUENCE OF LAYUP SPEED ON THE QUALITY
OF THERMOPLASTIC PREFORMS MANUFACTURED
BY LASER-ASSISTED AUTOMATED FIBRE
PLACEMENT
Mattia Di Francesco (National Composites Centre)
Mario Valverde (University of Bristol) Carwyn Ward
(University of Bristol) Peter Giddings (National
Composites Centre) Giuseppe Dell‘Anno (National
Composites Centre) Kevin Potter (University of Bristol)
Automated Fibre Placement of carbon fibre reinforced
thermoplastics at high deposition rate is possible,
but for a constant nip-point temperature process the
preform quality varies with the layup speed.
PO_5-17
OUT OF DIE ULTRAVIOLET PULTRUSION
PROCESS SET-UP: LIMITATIONS OF PHOTO-DIFFERENTIAL SCANNING CALORIMETRY ANALYSIS
PO_5-18
EFFECTS OF HEATING CONDITIONS ON HIGH
FREQUENCY INDUCTION WELDING BEHAVIOR OF
CARBON FIBER REINFORCED THERMOPLASTIC
COMPOSITES
Iosu Tena (University of Mondragon)
Iván Sáenz Domínguez (Mondragon Unibertsitatea)
Modesto Mateos (Mondragon Unibertsitatea)
Mariasun Sarrionandia (Mondragon Unibertsitatea)
Jon Aurrekoetxea (Mondragon Unibertsitatea)
Tanabe Daiki (Osaka University)
Kai Kurauchi (Kindai University) Yusuke Kawamura
(Kindai University) Kazuaki Nishiyabu (Kindai
University) Tetsusei Kurashiki (Osaka University)
The aim of this study is to analyse the limitations of
the traditional photo-differential scanning calorimetry
(photo-DSC) analysis compared to electric monitoring
(DC sensor) in the out of die ultraviolet (UV) pultrusion
process set-up.
This study aims to reveal the induction welding
behavior of CFRTP composites by high-frequency
induction heating method. The effects of heating
conditions were investigated to predict the optimum
processing conditions.
PO_5-21
PROCESS DEVELOPMENT FOR GENERATIVE
MANUFACTURING OF FIBER THERMOPLASTIC
COMPOSITES STRUCTURES – THERMOPLASTIC
PATCH PLACEMENT (TPP)
PO_5-22
PROCESSING OF FIBRE REINFORCED THERMOPLASTIC COMPOSITES WITH ENHANCED
THERMAL PROPERTIES
Philipp Schwanemann (Institut für Leichtbau und
Kunststofftechnik)
Niels Modler (Technical University of Dresden) Bernhard
Witschel (Institut für Leichtbau und Kunststofftechnik)
Bernd Grüber (Institut für Leichtbau und Kunststofftechnik)
Florian Lenz (Leichtbau-Zentrum Sachsen)
Development of a novel process for the generative
manufacturing of load-adapted curved composite shell
structures. The Thermoplastic Patch Placement (TPP)
process utilizes thermoplastic sheets for generative
manufacturing structures.
Georg Brockerhoff (RWTH Aachen University)
Robert Brüll (RWTH Aachen University)
Thomas Gries (RWTH Aachen University)
Gunnar Seide (RWTH Aachen University)
This paper evaluates the effects of 5 weight percent
(wt.-%) titanium dioxide (TiO2) in commingled hybrid
yarns made of polyamide 6 (PA6) glass fibres on the
cycle time during the consolidation process and the
resulting mechanical properties.
PO_5-15
INFLUENCE OF PROCESS PARAMETERS AND
MATERIAL AGING ON THE ADHESION OF
PREPREG IN AFP PROCESSES
PO_5-16
IMPROVED CURE SIMULATION IN
PULTRUSION PROCESS ABOUT HEATING
SYSTEMS: A CASE STUDY
Chinh Nguyen (German Aerospace Center)
Christian Krombholz (German Aerospace Center)
Rita de Cássia Costa Dias (Montanuniversitaet Leoben)
L. S. Santos (Universidade Federal Fluminense)
Ralf Schledjewski (Montanuniversitaet Leoben)
In order to increase the quality and process of
automated manufactured CFRP parts, the tack between
two prepreg plies depending on material aging at room
temperature and different material temperature was
analyzed with a lap shear test.
PO_5-19
HEATING CARBON/THERMOPLASTIC FIBRE
HYBRID NONWOVENS USING MICROWAVES TO
PRODUCE ORGANO SHEETS
Thomas Köhler (RWTH Aachen University)
Gunnar Seide (RWTH Aachen University)
Thomas Gries (RWTH Aachen University)
Fibre reinforced thermoplastic composites have
become increasingly important in the industry. Shorter
cycle time can be achieved by quick heating. The
volumetric heating of microwave technology can be
used to heat carbon/polyamide hybrid nonwovens.
PO_5-23
RAPID MANUFACTURING OF COMPOSITE STRUCTURES MADE OF FABRIC FLAX / POLYPROPYLENE
Imed Derbali (Ecole Nationale Supérieur d‘Arts et Metiers)
Svetlana Terekhina (Ecole Nationale Supérieur d‘Arts
et Metiers)
Laurent Guillaumat (Ecole Nationale Supérieur d‘Arts
et Metiers)
Pierre Ouagne (ENI Tarbes/ Université Orléans)
This paper present a new rapid manufacturing process
of composites parts based on flax/PP comingled fabric.
Then, an assessment of the new process by comparing
the mechanical properties of a material produced by a
traditional process will be presented.
In this work some case studies relationed to the
optimization of the die-temperature in the pultrusion
of a thermosetting composite are presented.
PO_5-20
MICROWAVE HEATING OF A COMPOSITE PART
Anais Barasinski (Ecole Centrale de Nantes)
Hermine Tertrais (Ecole Centrale de Nantes)
Chady Ghnatios (Notre Dame University-Louaize)
Francisco Chinesta (Ecole Centrale Nantes)
The principal objective of this work is to model and
simulate the interactions of the MW field with a
composite laminated part, consisting of a stack of
layers of different orientations, each layer made of
resin matrix and carbon fibers.
PO_5-24
IMPROVING PROCESSABILITY AND MECHANICAL
PERFORMANCE WITH THE USE OF UNIDIRECTIONAL THERMOPLASTIC TAPES IN COMPRESSION MOLDING FOR AUTOMOTIVE STRUCTURAL
APPLICATIONS.
Vincent Lutz (Plastic Omnium)
Different composite architectures were processed with
unidirectional tapes in a large manufacturing set-up.
85
5. Manufacturing Technologies
PO_5-25
AN ANALYTICAL MODEL FOR PREDICTING
CRITICAL FEED RATE IN DRILLING OF COMPOSITE MATERIALS
Navid Zarif Karimi (University of Bologna)
Hossein Heidary (Tafresh University)
J. Yousefi (Amirkabir University of Technology)
Giangiacomo Minak (University of Bologna)
PO_5-26
WET MACHINING OF CFRP
Marco Schneider (Fraunhofer IPA)
Andreas Gebhardt (Fraunhofer IPA)
Robert Beckenlechner (Fraunhofer IPA)
In this article, the potential of wet machining of CFRP
is illustrated by means of the milling process.
Kay Weidenmann (Karlsruhe Institute of Technology)
Sascha Baumann (Fraunhofer ICT)
Pascal Pinter (Karlsruhe Institute of Technology)
Peter Elsner (Fraunhofer ICT)
This contribution aims on the systematic, quantitative
analysis of the fiber orientation using X-ray computed
tomography in specimens manufactured from fiber-reinforced ABS by fused filament fabrication and its
impact on the mechanical properties.
PO_5-33
LASER HOLE CUTTING IN F-12 ARAMID
COMPOSITES
Dongbing Geng (Aerospace Research Institute of
Materials & Processing Technology)
Yi Zhang (Aerospace Research Institute of Materials &
Processing Technology)
Kai Yi (Aerospace Research Institute of Materials &
Processing Technology)
In the present study, laser holes cutting into F-12
laminates with different processing parameters of
laser machining and composites properties are carried
out by application of the CO2 laser.
86
PO_5-28
DYNAMIC STRAIN MONITORING OF COMPOSITE
LAMINATES DURING DRILLING USING FIBER
BRAGG GRATING AND STRAIN GAUGE SENSORS
Jan Faber (German Aerospace Center)
Clemens Schmidt-Eisenlohr (German Aerospace
Center)
Zhu Pingyu (Guangzhou University)
Zhichao Yang (Guangzhou University)
Yongjing Li (Guangzhou University)
Wei Shi (Guangzhou University)
Vacuum infusion techniques and especially vacuum
bagging involve a high amount of manual work. To
increase productivity and efficiency, robot-based
gripping systems could be used. Alongside the process
chain, optimization potentials are discussed.
In this paper, elastic fracture mechanics, classical
plate bending theory and the mechanics of oblique
cutting were used to predict critical thrust force and
feed rate at the onset of delamination in drilling of
composite laminates.
PO_5-29
ANALYSIS OF FIBER ORIENTATION, MICROSTRUCTURE AND MECHANICAL PROPERTIES OF
SPECIMENS MADE FROM FIBER-REINFORCED
ABS MANUFACTURED BY FUSED FILAMENT
FABRICATION (FFF)
PO_5-27
AUTOMATED HANDLING OF AUXILIARY MATERIALS FOR VACUUM BAGGING IN CFRP FUSELAGE
PRODUCTION
The stress concentrated response zones relative to
cutting force on laminated composites are obtained
under drilling loads. The location and occurrence
of delamination can be identified by strain energy
distribution of frequency variations.
PO_5-30
PROCESS AND MOLD DEVELOPMENT OF DIRECT
LONG FIBER REINFORCED FOAM INJECTION
MOLDING ON THE EXAMPLE OF POLYCARBONATE
AND GLASFIBERS
PO_5-31
HYBRID RESIN IMPROVES POSITION AND
ALIGNMENT OF CONTINUOUSLY REINFORCED
PREPREG DURING COMPRESSION COMOLDING
WITH SHEET MOLDING COMPOUND
Christoph Lohr (Karlsruhe Institute of Technology)
Andreas Menrath (Fraunhofer ICT)
Peter Elsner (Fraunhofer ICT)
Kay Weidenmann (Karlsruhe Institute of Technology)
David Bücheler (Fraunhofer ICT)
Frank Henning (Karlsruhe Institute of Technology)
Wei-Ting Wang (University of Bristol)
HaNa Yu (University of Bristol)
Kevin Potter (University of Bristol)
Byung Chul Kim (University of Bristol)
Till now, there was no approved procedure for the
reliable co-molding of prepreg material with SMC.
Introducing a hybrid resin system will enable to
manufacture composite parts of complex shape with
continuous reinforcements at high quality.
Interply friction is an important factor affecting
composite drape forming quality. In this work, the
effect of the interleaving materials on the interply
friction as well as the interlaminar fracture toughness
after curing were investigated.
Fiber reinforced polycarbonate (sandwich) blanks were
manufactured in a combined foam injection molding
and compounding process using a special developed
and designed mold. the specimen were investigated on
their mechanical properties.
PO_5-34
MECHANICAL PROPERTIES OF UNIDIRECTIONAL
CONTINUOUS CARBON FIBER REINFORCED
SHEET MOLDING COMPOUNDS (SMC)
Anna Trauth (Karlsruhe Institute of Technology)
David Bücheler (Fraunhofer ICT)
Frank Henning (Karlsruhe Institute of Technology)
Kay Weidenmann (Karlsruhe Institute of Technology)
Compression molding of unidirectional carbon fiber
SMC, based on a hybrid resin system, offers a novel
approach to process carbon fiber prepregs with
mechanical properties comparable to epoxy based
prepreg materials in a more economic way.
PO_5-32
IMPROVEMENT OF COMPOSITE DRAPE FORMING
QUALITY BY ENHANCING INTERPLY SLIP
6. Multifunctional and Smart Composites
PO_6-01
COVALENT MODIFICATION OF GOLD THIN FILMS
FOR PLASMONIC APPLICATIONS: COMPARISON
OF SPONTANEOUS AND ELECTROGRAFTING
PO_6-02
PERFORMANCE OF ACTIVE POLYMER-MATRIX
COMPOSITE USING SHAPE MEMORY ALLOY
WOVEN LAMINATES
Olga Guselnikova (National Research Tomsk
Polytechnic University)
Pavel Postnikov (National Research Tomsk Polytechnic
University)
Oleksiy Lyutakov (University of Chemistry and Technology Prague)
Min-Woo Han (Seoul National University)
Hyung-Il Kim (Seoul National University)
Sung-Hoon Ahn (Seoul National University)
PO_6-03
PIEZOELECTRIC PVDF SMART FIBRE FOR
COMPOSITE APPLICATIONS
PO_6-04
MICROWAVE ACTIVATED SHAPE MEMORY
POLYMER
Seyedalireza Razavi (Imperial College London)
Lorenzo Iannucci (Imperial College London)
Emile Greenhalgh (Imperial College London)
Zhihong XU (Nanjing University of Science and
Technology)
Zhang Yao (Institute of Soild Mechanics, Beihang
University)
Polymer-matrix composite actuator using Shape
Memory Alloy (SMA) woven laminates was investigated
with different configurations of the lamina condition.
This research work investigates the feasibility of
producing a piezoelectric Polyvinylidene Fluoride
(PVDF) – hereafter called smart fibre, by employing
the braiding manufacturing technique, for using in
sensing and energy harvesting applications.
PO_6-05
BIOCAPSULES FOR SELF-HEALING EPOXY
COMPOSITES
PO_6-06
GFRP COMPOSITE WITH DAMAGE VISUALIZATION CAPABILITY
PO_6-07
INTERLAMINAR FRACTURE OF COMPOSITES
MADE BY THERMO-REVERSIBLE EPOXY
PO_6-08
STATISTICAL ANALYSIS OF THE MECHANICAL
PROPERTIES OF NACRE
Iee Lee Hia (Monash University Malaysia)
Eng S. Chan (Monash University)
Pooria Pasbakhsh (Monash University)
Olga Bulderberga (Institute of Polymer Mechanics,
University of Latvia)
Andrey Aniskevich (InstitUniversity of Latvia)
S. Vidinejevs (University of Latvia)
Alfonso Martone (CNR - IPCB)
Stefania Dello Iacono (CNR - IPCB)
Mauro Zarrelli (CNR - IPCB)
Michele Giordano (CNR - IPCB)
Eugenio Amendola (CNR - IPCB)
Arunachalam Muthukaruppan (Indian Institute of
Technology-Madras)
Manoj Pandey (Indian Institute of Technology-Madras)
Ashivni Shekhawat (Indian Institute of Technology-Madras)
Facile procedure for covalent functionalization of
optical-active gold thin films was developed using
water-soluble arenediazonium tosylates. Spontaneous
reaction and electrografting approaches were
compared for optical applications.
A new self-healing capsule as the container for epoxy
resin has been developed. These capsules are made
of alginate biopolymer extracted from seaweed and
epoxy resin has been successfully encapsulated to
form self-healing capsules.
The method of manufacture of a GFRP composite with
damage visualization capabilityis proposed.
The interlaminar properties of carbon fiber composites
made by a synthetised system (2Ph2Epo65 Diels-Alder
epoxy) have been carried out to assess the multiple
healing capability.
In this paper the tetra-needle-shaped zinc oxide
whisker (T-ZnOw) was filled in the shape memory
polymer (SMP) with different weight fraction and
the T-ZnOw/SMP composite obtained the ability of
microwave absorption while maintaining the basic
thermal mechanical properties and shape memory
characteristics.
Monte Carlo simulations were carried out on the
heterogeneous nacre model of different sizes subjected
to uni axial tension in order to determine the material
heterogeneity effect on the overall behavior of the
material over several length scales.
PO_6-09
THERMALLY INDUCED SELF-HEALING CAPABILITY OF EPOXIES AND POLYURETHANES RESINS
Stefania Dello Iacono (CNR - IPCB)
Alfonso Martone (CNR - IPCB)
Antonello Pastore (CNR - IPCB)
Maddalena Giordano (University of Naples)
Eugenio Amendola (CNR - IPCB)
Intrinsic self-healing epoxies and polyurethanes
containing D-A adducts, in addition to conventional
epoxy and isocyanate precursors, have been prepared.
87
7. Recycling and Sustainability
Marcel Hofmann (STFI e.V.)
Bernd Gulich (STFI e.V.)
The poster explains pre-treatment of dry carbon fibres
wastes with modified cutting and tearing process and
the nonwoven production based on recovered carbon
fibres as possibility for the realisation of textile fabrics.
ICM Munich
88
PO_7-02
UNCURED CFRP RECYCLING Nuria Fanegas
Martin (FIDAMC)
Garcia Garcia Aquilino
Noelia Colas (AIRBUS Spain)
The target of this study is to transform uncured waste
prepreg produced during the manufacturing of the
CFRP composites into recycled raw material by cutting
the prepreg into chopped material.
picture: Messe München GmbH
PO_7-01
FIBRE BASED NONWOVENS IN LIGHT WEIGHT
CONSTRUCTION – A TRANSFERABLE CONCEPT
FOR THE RECYCLING OF CARBON WASTE
MATERIAL
AUTHORS INDEX
ID= DAY – ROOM – SESSION – ORDER
Autor
ID
Almeida Jr, Humberto
PO_1-04
Archer, Edward
MON-4_BUD_3.04-13
Baley, Christophe
TUE-4_BRI_2.04-09, WED-1_BRI_2.04-12
Almuhammadi, Khaled
THUR-2_BRI_2.13-05
Aretxabaleta, Laurentzi
TUE-2_BRI_2.08-05, WED-2_LON_5.01-11
Ball, Richard
PO-2-46
Alonso, María Virginia
PO-2-55
Arikan, Elisa
WED-2_ING_7.01-03
Balle, Frank
TUE-2_BRI_2.08-01, WED-4_STO_3.20-14
Alsaadi, Ahmed
MON-2_ING_6.01-03
Armattoe, Kodjo Mawuli
PO-3-30
Balvers, Johannes Mattheus
MON-4_BOR_5.02-06
Altstädt, Volker
TUE-2_NAP_2.06-21, TUE-3_STG_5.09-25,
TUE-3_STG_5.09-27, THUR-2_VEN_3.17-11
Arras, Matthias
PO-2-10
Bancroft, Ben
TUE-3_NAP_2.06-29
Arrieta, Andres F.
THUR-1_BIA_3.19-01, WED-3_ING_6.0203
Bao, Yongjie
PO-3-54
Bapari, Sambit
TUE-3_STO_3.14-09
Baran, Ireneusz
MON-2_MUC_3.01-07, WED-1_AUG_4.0301
Abbas, Bahoz
TUE-4_BOR_5.12-05
Abdalla, Mostafa
THUR-1_RHO_3.16-07
Abdin, Yasmin
TUE-4_MUC_3.01-29
Abdrakhimov, Ryslan
PO-2-43
Abel, Philipp
MON-1_RHO_3.23-03
Álvarez, Elena
MON-3_SEV_3.07-10
Abidin, Alfaferi Zainal
TUE-2_BRU_2.09-01
Amacher, Robin
MON-1_SEV_3.07-01, MON-3_SEV_3.07-11
Arsenyeva, Anna
THUR-1_RHO_3.16-08
Abisset-Chavanne, Emmanuelle
TUE-1_BOR_5.14-02, TUE-2_BOR_5.1405, PO-5-02
Amate-Illescas, Ana
WED-3_STO_3.20-09
Arteiro, Albertino
MON-2_SEV_3.07-08
Amend, P.
WED-1_VEN_3.18-10
Artero-Guerrero, Jose Alfonso
Baran, Ismet
Amendola, Eugenio
THUR-1_ING_6.02-09, PO-6-07, PO-6-09
MON-3_BIA_3.11-11, TUE-1_BIA_3.11-19,
TUE-2_BIA_3.11-21
MON-2_LON_5.07-03, MON-2_LON_5.0704
Ameur, Mohamed Faycal
PO-3-40
Asadi, Amir
WED-1_ATH_1.02-06, PO_1-08
Barandun, Gion Andrea
MON-4_STO_3.15-04
Amico, Sandro
PO_1-04, PO-3-28
Aslan, Mustafa
WED-2_BRI_2.04-16
Baranger, Emmanuel
MON-4_SEV_3.03-02
Anagnostou, Dimitrios
PO-3-24
Asp, Leif
MON-4_ING_6.03-01, TUE-2_SEV_3.0312, PO-3-20
Barasinski, Anais
TUE-1_BOR_5.14-01, TUE-1_BOR_5.1402, PO-5-20
Anandan, S.
THUR-1_ING_6.02-10
Assih, Jules
WED-4_BOR_1.05-05
Barbe, Fabrice
WED-1_BRU_2.12-03
Anderegg, Peter
WED-3_BOR_1.05-03
Astwood, Simon
MON-4_LON_5.06-05
Barber, Vaughan
PO-3-61
Anderson, R.
TUE-1_ING_7.02-01
Ataoğlu, Şenol
MON-1_NAP_2.06-03
Barbero, Ever
TUE-3_SEV_3.03-14
Anderssen, Reidar
WED-1_BUD_3.10-03
Atescan, Yagmur
WED-2_AUG_4.03-07
Bardon, Julien
WED-1_NAP_2.03-06
Andissac, David
MON-2_ATH_1.01-04
Auda-Kothari, Nadine
MON-1_RHO_3.23-02
Barfuss, Daniel
TUE-1_STG_5.09-18
Andrade Pires, Francisco
WED-1_MUC_3.02-05
Auger, Stéphane
WED-2_VEN_3.18-16
Barnes, Ashley
MON-3_LON_5.06-01
Andre, Alann
MON-3_SEV_3.07-10
Augustin, Till
WED-3_AUG_4.03-10
Baroud, Rawad
TUE-2_BUD_3.05-05, PO-3-48
Andreasen, Jens H
THUR-2_VEN_3.17-12
Aurrekoetxea, Jon
MON-2_LON_5.07-01, TUE-2_BRI_2.0805, WED-2_LON_5.01-11, PO-5-17
Barr, Stephen
TUE-2_BUD_3.05-06
Barroso, Alberto
TUE-4_STO_3.02-19
Barus, Matthias
MON-4_AUG_4.01-02
Baschnagel, Fabio
WED-4_BOR_1.05-07
Bashir, Sairah
TUE-1_ING_7.02-01
Basit, Abdul
MON-3_ING_6.01-09
Baskaran, Maider
WED-2_LON_5.01-11
Basri, N. B.
TUE-1_ING_7.02-01
Bastick, Stefan
THUR-2_BOR_5.10-06
Basturk, Bahar
MON-2_BRU_2.02-07
Batista, Natassia
PO-2-45
Batra, Uma
TUE-2_NAP_2.06-22
Battley, Mark
MON-2_STO_3.21-03
Bauer, Constantin
WED-1_BUD_3.10-01
Bauer, Felix
MON-3_ATH_1.01-11
Bauer, Georg
WED-3_ING_6.02-04
Bauer, Matthias
WED-3_NAP_2.01-04
Baumann, H.
MON-3_STG_5.09-10
Baumann, Sascha
PO-5-29
Baumgärtner, Sebastian
MON-2_STG_5.09-05
Bautz, Brian
TUE-4_SEV_3.03-20
Bax, Laszlo
THUR-2_AUG_8.01-02
Bayraktar, Harun
WED-2_STO_3.20-05
Beauchêne, Pierre
TUE-4_STG_5.03-01
Becher, Juergen
WED-4_STO_3.20-13
Beckenlechner, Robert
PO-5-26
Abliz, Dilmurat
MON-2_BRU_2.02-05
Abu Al Rub, Rashid
MON-3_MUC_3.01-12, TUE-2_STO_3.14-03
Abusafieh, A.
PO-3-61
Abusrea, Mahmoud
PO-3-56
Abuwarda, N.
PO-2-40
Addiego, Frédéric
WED-1_NAP_2.03-06
Adebahr, Wolfgang
WED-2_AUG_4.03-04
Adelung, R.
MON-4_BRI_2.07-15
Adumitroaie, Adi
TUE-3_SEV_3.03-14
Agogué, Romain
TUE-4_STG_5.03-01
Aguado, Jose Vicente
TUE-1_BOR_5.14-02
Ahci, Elif
MON-2_ATH_1.01-07, THUR-2_BUD_3.1020
Ahlqvist, Fredrik
MON-3_SEV_3.07-10
Androuin, Guillaume
WED-4_BUD_3.10-13
Ahmed, Sharif
MON-1_BIA_3.11-01
Androulidakis, Charalampos
MON-1_BRI_2.07-02
Auzanneau, Fabrice
PO_1-10
WED-1_VEN_3.18-12
Ahn, Sung-Hoon
PO-6-02
Andrzejewski, Jacek
MON-4_NAP_2.06-14, PO-2-27
Avgoulas, Evangelos Ioannis
Airinei, Anton
PO-2-08
Anfray, Emmanuel
TUE-4_STG_5.03-01
Awe, Christoph
WED-2_RHO_3.16-02
Aitomäki, Yvonne
WED-3_SEV_3.22-10
Ania, F.
MON-2_BRI_2.07-06
Aydoğan, Yücel
MON-2_NAP_2.06-04
Aizpuru, A.
WED-2_LON_5.01-11
Anisimov, Andrei
TUE-1_AUG_4.01-07
Aymerich, Francesco
MON-1_BIA_3.11-02
Ajmal, Osman
TUE-1_AUG_4.01-06
Aniskevich, Andrey
PO-2-54, PO-3-02, PO-6-06
Aymonier, Cyril
TUE-4_ING_7.02-14
Akakabe, Kotaro
MON-3_STO_3.21-06
Anoshkin, Aleksandr
PO-3-12, PO-3-44, PO-4-2
Azad, Mohammadreza
TUE-3_ING_7.02-08
Akbarpour, Sahar
THUR-2_STO_3.20-19
Anthony, David
TUE-2_STO_3.14-04, PO-3-39
Baba, Tsuyoshi
WED-2_LON_5.01-12
Akdere, Musa
WED-4_NAP_2.01-05
Antoine, Martin
MON-2_STO_3.21-01
Babakova, E. V.
TUE-2_BRU_2.09-04
Åkermo, Malin
MON-1_LON_5.11-03
Antonelli, V.
THUR-1_ATH_1.08-02
Bacarreza, Omar
WED-2_SEV_3.22-07, WED-4_SEV_3.22-13
Akkerman, Remko
MON-2_LON_5.07-03, MON-2_LON_5.0704, TUE-2_LON_5.06-16
Anusic, A.
PO-2-20
Bachem, Harald
MON-4_ATH_1.01-13
Aoki, Takahira
MON-3_STO_3.21-06, PO-3-21
Backe, Sebastian
TUE-2_BRI_2.08-01
Aland, S.
MON-1_AUG_4.02-02
Aoki, Takuya
MON-4_ATH_1.01-15, PO-2-48
Baets, Joris
TUE-4_BRI_2.04-09
Alba, Maria Bruna
THUR-2_STG_1.05-13
Aouici, Hamdi
PO-3-40
Bagemiel, Oliver
PO-5-10
Albrecht, Stefan
WED-2_ING_7.01-02
Apmann, Hilmar
WED-3_ATH_1.02-12
Bagheri, Mohsen
TUE-3_ATH_1.04-03
Aleshin, Artem
MON-4_SEV_3.03-05
Apolinario Testoni, Guilherme
THUR-1_MUC_3.13-01
Bahners, Thomas
TUE-4_NAP_2.03-02
Alfayad, Samer
THUR-1_ATH_1.08-03
Appel, Lars
TUE-4_BOR_5.12-05
Bai, Shu-Lin
MON-4_BRI_2.07-17
Alikin, M. A.
PO-3-12
Appels, Lise
WED-3_BRI_2.04-20
Baier, Horst
THUR-1_ATH_1.08-02
Al-Ketan, Oraib
TUE-2_STO_3.14-03
Aquilino, Garcia Garcia
PO-7-02
Bailey, Peter
TUE-1_AUG_4.01-05, PO-3-29
Al-Kuwaiti, Maryam
PO-3-61
Arai, Masahiro
TUE-2_SEV_3.03-11
Bailleul, Jean-Luc
TUE-2_ING_7.02-06, TUE-3_ING_7.02-10
Allaoui, Samir
PO-3-22
Arai, Yoshio
PO-3-05
Bainier, Hadrien
WED-2_MUC_3.02-09
Allayes, F.
MON-3_BUD_3.04-12
Arakawa, Kazuo
PO-3-56
Baitimerov, R.M.
PO-2-43
Allegri, Giuliano
MON-1_BUD_3.04-02, WED-4_BUD_3.1015
Arash, Behrouz
MON-1_BRU_2.02-01
Bajpai, Ankur
TUE-2_NAP_2.06-25
Allen, Trevor
MON-1_BIA_3.11-01
Aravand, Mohammadali
TUE-2_AUG_4.01-11
Bakis, Gökhan
TUE-2_NAP_2.06-21
Balawi, S.
PO-3-46
89
Autor
Becker, David
MON-1_STG_5.09-03,
TUE-2_LON_5.06-13
Bedogni, Enrico
TUE-1_VEN_3.06-18
Behlouli, Karim
WED-1_BRI_2.04-12
Beier, Uwe
MON-3_ATH_1.01-10,
WED-2_NAP_2.03-10
Bel, Sylvain
THUR-2_STG_1.05-12
Bismarck, Alexander
MON-2_ING_6.01-02, MON-2_ING_6.0105, MON-3_ING_6.01-07, MON-3_
ING_6.01-08, TUE-2_STO_3.14-04,
TUE-3_BRI_2.04-03, TUE-3_BRI_2.04-04,
TUE-4_BRU_2.14-08, WED-2_ATH_1.0210, WED-3_BRI_2.04-19, WED-4_
NAP_2.01-06, PO-2-28, PO-3-39
Bovtun, Viktor
TUE-3_AUG_4.05-01
Caliaro, M.
THUR-1_ING_6.02-10
Boyard, Nicolas
WED-1_STG_5.03-08
Callens, Clément
MON-1_STG_5.09-01
Braginsky, Michael
MON-1_ATH_1.01-02, MON-3_MUC_3.0110, MON-4_SEV_3.03-05
Calomfirescu, Mircea
MON-4_ATH_1.01-16
Braiek, Sonia
Camanho, Pedro
WED-3_STO_3.20-12
Bissett, Mark
MON-1_BRI_2.07-01
Brand, Clemens
TUE-1_ATH_1.01-17
MON-2_SEV_3.07-08, MON-4_BIA_3.11-17,
TUE-2_BRI_2.08-03, WED-1_MUC_3.0205, WED-1_MUC_3.02-06
Björnsson, Andreas
MON-1_LON_5.11-03
Brand, Michael
MON-4_STG_5.09-16
Campo, Monica
PO-2-29
Blacklock, Matthew
TUE-4_VEN_3.18-08
Branner, Kim
TUE-3_ATH_1.04-02
Camps, Thierry
WED-1_STG_5.03-07
MON-1_STG_5.09-02
Canal Casado, Luis Pablo
TUE-2_MUC_3.01-23
Cano, Manuela
THUR-2_BRU_2.11-06
Cantarel, A.
MON-4_AUG_4.01-02
Cantwell, Wesley
TUE-4_BRU_2.14-07, PO-3-46, PO-3-61
Cao, Guoxin
TUE-1_MUC_3.01-17
Cao, Xiaoang
WED-3_STO_3.20-10
Carboni, Michele
WED-2_AUG_4.03-06
Cardinale, Tiziana
THUR-2_STG_1.05-13
Cardinaud, Romain
WED-1_STG_5.03-08
Carmona, Noemi
TUE-2_BRU_2.09-02
Carnelli, Davide
WED-3_ING_6.02-01
Caro, Anne-Sophie
TUE-4_ING_7.02-15
Caron, Jean-François
TUE-2_BUD_3.05-05, PO-3-48
Carotenuto, Gianfranco
MON-3_NAP_2.06-10
Carpier, Yann
WED-1_BRU_2.12-03
Carqueville, Patrick
MON-1_BOR_5.08-03
Carraro, Paolo Andrea
MON-3_BUD_3.04-09, MON-3_ING_6.0106, TUE-2_MUC_3.01-24, THUR-1_
BUD_3.10-17, WED-3_BUD_3.10-12
Carrascal, Isidro
PO-3-03
Carreño, Francisco
TUE-2_BRU_2.09-02
Carvelli, Valter
MON-1_VEN_3.06-02, MON-2_VEN_3.0608, WED-3_BOR_1.05-04
Belec, Lenaik
MON-3_AUG_4.04-01
Blackman, Bamber
WED-3_STO_3.20-10
Braun, Georg
Belingardi, Giovanni
WED-2_STO_3.20-04, PO-2-49
Blais, Maxime
TUE-4_LON_5.01-01
Braun, Martin
WED-4_STG_5.04-05
Bellettre, Jérôme
TUE-2_ING_7.02-06, TUE-3_ING_7.02-10
Blake, James
TUE-3_BRI_2.04-02
Brauner, Christian
Belnoue, Jonathan
MON-1_VEN_3.06-01,
MON-4_BOR_5.02-07
Blanchard, Jeanne
TUE-3_BRI_2.04-02
MON-4_ATH_1.01-13,
WED-4_VEN_3.17-07
Ben Drogt, Ir.
WED-2_ING_7.01-01
Blanco, N.
MON-1_SEV_3.07-02
Breitzman, Timothy
MON-3_MUC_3.01-10,
TUE-2_BUD_3.05-06
Ben Khalifa, Ated
WED-3_STO_3.20-12
Bláquez, Antonio
MON-1_BUD_3.04-01, MON-3_BOR_5.0204, THUR-1_BIA_3.19-03
Ben Ouezdou, Fethi
THUR-1_ATH_1.08-03
Blok, Lourens
MON-4_BIA_3.11-14
Bender, Jens Jakob
WED-4_BUD_3.10-14
Bluemel, Sven
Benedictus, Rinze
TUE-3_VEN_3.18-01, WED-2_STO_3.20-07
THUR-2_BOR_5.10-06, THUR2_BOR_5.10-08
Benelfellah, Abdelkibir
PO-2-52
Benezet, Jean-Charles
TUE-4_ING_7.02-15
Bensadoun, Farida
TUE-3_BRI_2.04-01, TUE-4_BRI_2.04-09
Bera, Tushar
THUR-2_BRI_2.13-05
Bergamo, Sébastien
TUE-1_BRU_2.10-02
Bergeret, Anne
TUE-4_BRI_2.04-08
Bergès, Michaël
THUR-1_MUC_3.13-03
Berggreen, Christian
THUR-2_VEN_3.17-12
Bernardeau, Fabien
Bernardo, F.
Bernasconi, Andrea
Bernhart, Gerard
90
ID
Brely, Lucas
TUE-4_BUD_3.05-17
Breuer, Ulf P.
TUE-2_BRI_2.08-01
Brieu, Mathias
MON-2_BIA_3.11-05, MON-2_BIA_3.11-07
Brioso, C.
WED-3_LON_5.13-03
MON-2_BOR_5.08-07
Brockerhoff, Georg
PO-5-22
Bodaghi, Masoud
WED-1_BOR_5.12-09
Brönnimann, Rolf
WED-3_BOR_1.05-03
Bodjona, Kobye
THUR-2_STO_3.20-21,
THUR-2_STO_3.20-22
Brouzoulis, Jim
MON-2_BUD_3.04-05
Bruchon, J.
TUE-4_LON_5.01-01
Boehm, Holger
TUE-1_VEN_3.06-20
Bruckbauer, Philipp
Boehm, Robert
WED-3_MUC_3.02-15
WED-2_NAP_2.03-10,
WED-3_ATH_1.02-13
MON-2_BRU_2.02-04,
MON-3_STG_5.09-10
Bockelmann, Paul
Bognet, Brice
MON-3_STO_3.21-08
Brudzinski, Patrik-Vincent
Böhler, Patrick
WED-2_RHO_3.16-03,
THUR-1_LON_5.05-02, PO-5-01
Brugo, Tommaso
MON-1_NAP_2.06-01
TUE-4_ING_7.02-15
Böhlke, Thomas
TUE-3_BUD_3.05-11
Brüll, Robert
PO-5-22
PO-4-5
Bois, Christophe
TUE-4_STO_3.02-02
Brunella, Valentina
WED-2_STO_3.20-04
TUE-3_AUG_4.05-04, WED-1_BIA_3.0801, WED-2_AUG_4.03-06
Boisse, Philippe
MON-2_VEN_3.06-05, MON-3_VEN_3.0612, TUE-4_LON_5.01-04
Brunner, Jens
MON-3_SEV_3.07-11
Brysch, Marco
THUR-2_VEN_3.17-13
MON-3_BRU_2.02-12,
MON-4_VEN_3.06-16
Bolhuis, P.
MON-4_BRU_2.02-14
Bubestinger, Andreas
PO-3-62
Castanié, Bruno
TUE-4_SEV_3.03-19
Bollino, Flavia
PO-2-22
Buccoliero, Giuseppe
Caster, William
WED-2_AUG_4.03-08
Bolotov, Boris
MON-4_BIA_3.11-13
MON-4_STG_5.09-15,
THUR-1_BIA_3.19-02
WED-4_ING_6.02-06,
WED-4_LON_5.13-05
PO-5-31, PO-5-34
MON-2_BIA_3.11-07
Bond, Ian
Bücheler, David
Castres, magali
Buchin, Jean-Michel
MON-2_ATH_1.01-06
Casuscelli, Valeria
MON-3_NAP_2.06-10
Bonnay, Kevin
WED-2_BIA_3.08-08
Bücker, Marcel
PO-3-53
Catalanotti, Giuseppe
MON-2_SEV_3.07-08, MON-4_BIA_3.11-17
Borazghi, Hossein
TUE-3_ING_7.02-08
Budiman, Bentang Arief
MON-1_MUC_3.01-02
Cataldi, Annalisa
TUE-1_NAP_2.06-18
Born, Johannes
WED-4_STO_3.20-14
Buggisch, Christina
MON-2_SEV_3.07-07
Caton-Rose, Fin
WED-1_BIA_3.08-02, WED-3_BIA_3.0809
Borstnar, Gregor
TUE-2_MUC_3.01-22
Bulbovich, Roman
PO-3-34
Caty, Olivier
MON-1_AUG_4.02-01, PO-4-3, PO-4-6
Bortolotto, Laurent
MON-4_LON_5.06-08
Bulderberga, Olga
PO-3-02, PO-6-06
Cebeci, Hülya
Borzacchiello, Domenico
TUE-1_BOR_5.14-02
Bullegas, Gianmaria
TUE-3_STO_3.14-08, TUE-4_MUC_3.01-31
MON-1_NAP_2.06-03, WED-2_AUG_4.0307, PO-2-56
Bosbach, Björn
TUE-3_VEN_3.18-02
Bunk, Katharina
WED-3_ING_6.02-04
Ceparano, Angelo
PO-2-22
Bosia, Federico
TUE-4_BUD_3.05-17
Burgstaller, Christoph
WED-4_BRI_2.04-22
Chabchoub, Manel
THUR-1_BRU_2.11-03
Bossert, Jörg
TUE-1_VEN_3.06-19, PO-2-10
Burkart, Thomas
THUR-1_RHO_3.16-06
Chabert, France
MON-3_BRU_2.02-12
Botelho, Edson
PO-2-45
Buruiana, Emil
PO-2-24
Chailan, Jean-François
MON-3_AUG_4.04-01
Botsis, John
MON-1_SEV_3.07-01,
MON-2_BUD_3.04-06,
MON-3_SEV_3.07-11, TUE-2_MUC_3.01-23
Buruiana, Tinca
PO-2-24
Challita, Georges
WED-2_STO_3.20-08
Busquets, David
TUE-3_ATH_1.04-04
Chaloupka, Alexander
TUE-3_AUG_4.05-03, TUE-4_AUG_4.0505, TUE-4_NAP_2.03-04
Botzkowski, Tim
THUR-2_RHO_3.16-10
Butler, Richard
Chan, Eng S.
PO-6-05
Bouchart, Vanessa
THUR-1_MUC_3.13-02
TUE-4_BUD_3.05-14, WED-1_AUG_4.0303, WED-2_RHO_3.16-04, THUR-2_
RHO_3.16-11
Chang, H. W.
PO-3-23
Bouillon, Florent
TUE-2_BRU_2.09-03
Cabanero, Germán
WED-1_ING_7.02-16
Chang, K.C.
WED-3_BOR_1.05-02
Boulebbad-Gomez, Nassira
WED-1_MUC_3.02-04
Cabello, Mario
Chang, Seong Jin
PO-2-47
Bourmaud, Alain
WED-1_BRI_2.04-12
WED-2_STO_3.20-06,
THUR-1_STO_3.20-17
PO-3-15
Bouslama, Nidhal
THUR-2_BIA_3.19-06
Cafiero, Livia
TUE-4_BRU_2.14-05
Chang, Tengfei
PO-2-37
Bouvard, Jean-Luc
PO-3-24
Caglar, Baris
WED-1_STG_5.03-06
Changping, Yin
TUE-3_BUD_3.05-10
TUE-1_STO_3.15-05, TUE-4_SEV_3.03-19
TUE-3_MUC_3.01-25
Charalambakis, Nicolas
Bouvet, Christophe
Cai, Hongneng
WED-1_MUC_3.02-04
Bouville, Florian
WED-3_ING_6.02-02
Calame, Michel
WED-3_NAP_2.01-02
Charles, Jean-Paul
Charlier, Quentin
MON-1_BRU_2.02-03
Berring, Peter
TUE-3_ATH_1.04-02
Berry, Rajiv
TUE-2_BUD_3.05-06
Bersani, Massimo
WED-2_NAP_2.03-08
Berthe, Julien
MON-2_BIA_3.11-05, MON-2_BIA_3.11-07,
WED-2_BRU_2.12-07
Bertheau, Denis
WED-1_BRU_2.12-02, PO-2-52
Bertram, Benjamin
PO-4-4
Beuscher, Jan
MON-4_STG_5.09-16
Beyaoui, Moez
THUR-1_BRU_2.11-03
Beyrle, Matthias
MON-1_STG_5.09-02
Bezerra, Renato
MON-2_LON_5.07-02
Biani, Andrea
TUE-3_BRU_2.14-02
Biasi, Valentin
WED-2_BRU_2.12-04
Bickerton, Simon
MON-2_BOR_5.08-04, MON-2_STO_3.2102, MON-2_STO_3.21-03, MON-3_
STO_3.21-07, WED-2_STG_5.03-09
Biel, Anders
MON-2_BUD_3.04-08
Billon, Noelle
PO-3-24
Bilotti, Emiliano
TUE-1_NAP_2.06-19
Bingslien, Ketil
WED-1_BUD_3.10-03
Binti A. Hamid, Nurul Nabihah
PO-3-07
Bisagni, Chiara
MON-4_STO_3.15-02
Autor
ID
Compston, Paul
MON-4_LON_5.06-06,
TUE-2_LON_5.06-17
De Baere, Ives
TUE-3_NAP_2.06-26,
WED-3_STG_5.04-02
Diebold, Felix
MON-1_BOR_5.08-01,
TUE-4_STG_5.03-02
Charron, Morgan
PO-4-3
Conneely, Alan
MON-1_RHO_3.23-01
De Bruyne, Guido
MON-2_BIA_3.11-06
Diel, Sergej
THUR-2_VEN_3.17-14
Chatzigeorgiou, George
TUE-1_MUC_3.01-19,
TUE-3_BUD_3.05-10, PO-3-24
Connell, Nathan
MON-2_STO_3.21-03
De Clerck, Karen
TUE-3_NAP_2.06-26
Dietrich, Franz
MON-4_STG_5.09-16
Chauvin, Michael
PO-2-19
Conrado, Edoardo
WED-1_BIA_3.08-01
De Clercq, Geert
WED-3_STG_5.04-02
Dilger, Klaus
WED-4_STO_3.20-15
Chebot, Dan
TUE-3_NAP_2.06-29
Conway, Dave
TUE-2_STG_5.09-20
De Fazio, Piero
THUR-2_STG_1.05-13, PO-4-5
Dimassi, Mohamed Adli
PO-3-40
TUE-3_NAP_2.06-29
De Freese, J.
TUE-1_ATH_1.01-19
MON-4_ATH_1.01-13,
WED-4_VEN_3.17-07
Cheikh, Mohamed
Conway, Heather
WED-4_ING_6.02-06
De Groof, Vincent
THUR-2_BIA_3.19-07
THUR-1_BOR_5.10-03
TUE-1_MUC_3.01-19, TUE-3_BUD_3.0510, WED-2_BIA_3.08-08, PO-3-24
Coope, T.
Ding, W.F.
Chemisky, Yves
Cooper, Sean
TUE-2_STG_5.09-20
De La Escalera, Federico Martin
MON-1_SEV_3.07-02, MON-3_SEV_3.0710, MON-4_BIA_3.11-16, TUE-2_SEV_3.0309
Ding, Xingxing
PO-3-15
Dingemans, Theo
TUE-2_ATH_1.01-20
Dittmann, Jörg
WED-2_RHO_3.16-03
Dixon, Dorian
MON-4_BUD_3.04-13
Djilali, Toufik
MON-3_BRU_2.02-12
Dlugosch, Michael
TUE-4_ATH_1.02-04
Dobiasch, Thomas
TUE-2_LON_5.06-15
Chen, Bo-Yang
TUE-3_SEV_3.03-15
Coppalle, Alexis
WED-1_BRU_2.12-03
Chen, Lei
PO-3-54
Coq, Marie
MON-1_MUC_3.01-03
Chen, Lubai
PO-3-35
Cordes, Alena
MON-3_VEN_3.06-10
Chen, Wei Jen
PO-2-38, PO-2-51
Corn, Stéphane
Chen, Yan
THUR-2_BOR_5.10-05
TUE-4_BRI_2.04-08, THUR-1_MUC_3.1301, THUR-1_MUC_3.13-03
Chen, Zhong
MON-2_BIA_3.11-04
Corradi, Roberto
TUE-3_AUG_4.05-04
Cherif, Chokri
TUE-2_VEN_3.06-24, WED-2_ATH_1.02-11
Correa, Elena
MON-2_MUC_3.01-04
Cherkaoui, Mohammed
MON-2_MUC_3.01-08
Correia, Luís
Cherrier, C.
TUE-3_AUG_4.05-02
Chevalier, Jeremy
WED-1_MUC_3.02-06
Chevrier, Pierre
THUR-1_MUC_3.13-02
Chiang, Chin-lung
PO-2-38, PO-2-51
Chiang, Yu-Chun
PO-2-30
Chiaruttini, Vincent
MON-2_VEN_3.06-07
Chinesta, Francisco
MON-3_STO_3.21-08, TUE-1_BOR_5.1401, TUE-1_BOR_5.14-02, TUE-2_
BOR_5.14-05, TUE-3_ATH_1.04-04,
PO-5-20
De la Mano, R.
WED-4_ATH_1.03-01
De Luca, Francois
PO-2-28
De Luca, Hugo
PO-3-39
De Luca, Patrick
MON-3_STO_3.21-08, TUE-4_SEV_3.03-22
De Nicola, Felice
MON-2_RHO_3.23-05, MON-4_AUG_4.0101, PO-2-34
Döbrich, Oliver
TUE-2_VEN_3.06-24
THUR-1_STG_1.05-09
De Palmenaer, Andreas
PO-2-04
Dodonov, Pavel
TUE-1_SEV_3.03-07
Cortés, Enrique
TUE-3_ATH_1.04-04
De Simone, Antonio
TUE-1_BUD_3.05-01
Dodwell, Timothy
Cosson, Pascal
THUR-1_BUD_3.10-16
De Vincente, Rocio
WED-1_BRU_2.12-02
TUE-4_BUD_3.05-14, TUE-4_ING_7.02-12,
WED-1_AUG_4.03-03, THUR-2_RHO_3.1611
Costa Dias, Rita de Cássia
PO-5-16
Dear, John P.
WED-3_STO_3.20-10, PO-3-47
Doerfler, Janosch
TUE-4_ING_7.02-14
Costa, Josep
MON-2_SEV_3.07-04
Declercq, Nico Felicien
WED-3_AUG_4.03-09
Doerr, Dominik
WED-2_LON_5.01-09
Costa, Sérgio
TUE-4_STO_3.02-01
Deflorian, Flavio
TUE-1_NAP_2.06-18
Doersch, Christian
PO-5-10
Couegnat, Guillaume
MON-1_AUG_4.02-01, PO-4-3, PO-4-6
Degrieck, Joris
Dohmen, Eike
MON-4_BRU_2.02-13
Crocombe, Andrew
TUE-1_AUG_4.01-06
MON-3_BUD_3.04-12,
WED-3_STG_5.04-02
MON-2_VEN_3.06-07
Croughs, Jorma
WED-2_BRI_2.04-15
Deinzer, Günter
Doitrand, Aurélien
Doll, Georg
TUE-1_ATH_1.01-17
Crouzeix, Laurent
MON-4_AUG_4.01-02,
THUR-2_BOR_5.10-04
MON-1_BOR_5.08-01, MON-4_BIA_3.1115, TUE-4_STG_5.03-02
Dekeyrel, A.
PO-4-3
Domínguez, Juan Carlos
PO-2-55
Crowley, Dennis
TUE-3_LON_5.06-20
Del Rosso, Stefano
WED-3_SEV_3.22-09
Domm, Matthias
MON-2_STG_5.09-06
PO-2-55
Donadon, Mauricio
MON-2_ING_6.01-01
Chłopek, Jan
MON-2_MUC_3.01-07
Chocinski-Arnault, Laurence
WED-2_BRI_2.04-13, PO-3-49
Crozatier, Mathilde
PO-5-06
Del Saz-Orozco, Belén
Chokshi, Atul
TUE-3_STO_3.14-09
Crump, D.A.
TUE-1_AUG_4.01-05
Deletombe, Eric
MON-2_BIA_3.11-05, MON-2_BIA_3.11-07
Dong, Anqi
MON-4_LON_5.06-09
Chou, Tsu-Wei
WED-2_SEV_3.22-06
Cugnoni, Joel
Dell‘Anna, Riccardo
TUE-2_STG_5.09-24
Dong, Dalong
PO-3-64
Christ, Ulrich
MON-4_ATH_1.01-16, TUE-1_ATH_1.01-17
MON-1_SEV_3.07-01, MON-2_BUD_3.0406, MON-3_SEV_3.07-11
Dell‘Anno, Giuseppe
MON-4_LON_5.06-05, PO-3-09, PO-5-14
Dönmez, Abdullah
MON-1_NAP_2.06-03
Christke, Sandra
WED-1_BRU_2.12-01, WED-3_BRU_2.12-11
Cunha, Fernando
THUR-1_STG_1.05-09
Dello Iacono, Stefania
THUR-1_ING_6.02-09, PO-6-07, PO-6-09
Dooher, Thomas
MON-4_BUD_3.04-13
Christopoulos, Aggelos C.
WED-4_ING_6.02-05
Cuong, Vu Manh
WED-1_ATH_1.02-05
De-Luycker, Emmanuel
Dorigato, Andrea
TUE-3_BRU_2.14-02
Chunfang, Huang
MON-3_SEV_3.07-09
Curtis, Paul
Döring, Manfred
THUR-1_BRU_2.11-01
Chupin, Sylvain
PO-4-6
WED-3_LON_5.13-02,
WED-3_SEV_3.22-09
MON-2_BUD_3.04-04,
MON-4_VEN_3.06-16
Demir, Elif
PO-2-56
Dransfeld, Clemens
Ciardiello, Raffaele
WED-2_STO_3.20-04
Cicero, Sergio
PO-3-03
Cidade, Rafael
MON-4_BIA_3.11-17
MON-3_SEV_3.07-11, MON3_STG_5.09-08, TUE-3_BIA_3.12-03,
TUE-4_BRI_2.04-05, WED-1_ING_7.02-17,
WED-1_LON_5.01-08, WED-2_BRI_2.0414, WED-3_NAP_2.01-02
Cimmino, Angela
MON-3_NAP_2.06-10
Drapier, Sylvain
TUE-4_LON_5.01-01, PO-2-25
Cinar, Kenan
WED-3_VEN_3.17-01, PO-5-03
Drechsler, Klaus
Cinquin, Jacques
Claes, Michael
Claeys, Joren
MON-1_BOR_5.08-03, MON-2_BOR_5.0807, MON-3_LON_5.06-04, MON-3_
STG_5.09-09, MON-3_STG_5.09-10,
MON-4_STG_5.09-12, TUE-2_ING_7.02-07,
TUE-2_LON_5.06-17, TUE-2_STG_5.09-23,
THUR-2_AUG_8.01-0, TUE-3_VEN_3.1804, TUE-4_AUG_4.05-05, TUE-4_
VEN_3.18-05, WED-2_ING_7.01-02,
WED-2_ING_7.01-03, WED-2_NAP_2.0310, WED-2_RHO_3.16-05, WED-2_
STG_5.03-11, WED-3_ATH_1.02-13,
WED-3_STG_5.04-04, THUR-2_LON_5.0504, THUR-2_LON_5.05-05, THUR-2_
MUC_3.13-06
Drissi-Habti, Monssef
MON-3_NAP_2.06-12, PO_1-10
Dröder, Klaus
MON-4_STG_5.09-16
Du, Jia-Yang
WED-3_ATH_1.02-12
Du, Xiaohan
MON-2_BRI_2.07-04
Duan, Shihui
THUR-2_BIA_3.19-04
Duan, Yugang
MON-2_BRU_2.02-08,
TUE-4_NAP_2.03-01, PO-2-17
Dubary, Nicolas
TUE-1_STO_3.15-05
Cutolo, Arsenio
MON-2_RHO_3.23-05
Depreitere, Bart
TUE-3_BRU_2.14-03
Czaderski, Christoph
WED-3_BOR_1.05-03
Depuydt, Delphine
WED-3_BRI_2.04-20, WED-4_BRI_2.04-21
Czel, Gergely
WED-1_SEV_3.22-02, WED-2_SEV_3.2204, WED-2_SEV_3.22-05, WED-4_
SEV_3.22-14
Derbali, Imed
PO-5-23
Derdas, Christos
TUE-4_ATH_1.02-01, WED-4_STO_3.20-13
D’Ettorre, Alessandro
MON-1_VEN_3.06-02
Dereims, Arnaud
MON-2_ATH_1.01-04
Daelemans, Lode
TUE-3_NAP_2.06-26, PO-3-22
TUE-4_LON_5.01-04,
WED-1_LON_5.01-07
Dahmann, Peter
TUE-3_ATH_1.04-03
Deresh, Dina
TUE-3_NAP_2.06-29
TUE-3_NAP_2.06-27
Dai, Zhaohe
WED-2_NAP_2.03-11
Deshpande, Vikram
PO-3-01
WED-2_BRI_2.04-15
Desjoyeaux, Bertrand
WED-4_NAP_2.01-06
PO-5-18
TUE-4_STG_5.03-01
Clancy, Adam
Daiki, Tanabe
TUE-3_AUG_4.05-02
Dalibor, Ingo Hermann
PO_1-04
TUE-4_BUD_3.05-13
Clasen, R.
Desmet, Wim
PO-2-39
Despringre, Nicolas
WED-2_BIA_3.08-08
PO-3-09
Dammak, Fakhreddine
Deudon, Alain
TUE-1_STO_3.15-06
WED-2_LON_5.01-12
WED-2_BRU_2.12-07
Clement, Alexandre
Dan, Koji
MON-2_STO_3.21-01
Dannemann, Martin
TUE-3_BIA_3.12-01
TUE-2_NAP_2.06-21
Co, Dao
Deutges, Holger
TUE-4_SEV_3.03-18
Devoe, Mackenzie
TUE-3_NAP_2.06-29
TUE-2_BRU_2.09-05
Dargusch, Matthew
Dhakate, Sanjay R.
THUR-1_ING_6.02-08
PO_1-10
MON-3_BRU_2.02-10
Cohades, Amaël
Das, Raj Jyoti
WED-4_ATH_1.03-01
Di Caprio, Francesco
PO-7-02
Dasilva Costa, Sara
MON-2_RHO_3.23-05, PO_1-03
Colas, Noelia
Di Francesco, Mattia
MON-4_BIA_3.11-13
PO-5-06
MON-4_LON_5.06-05, PO-5-14
Coles, Laurence
Dau, Frédéric
TUE-4_BRI_2.04-09
Di Maio, Dario
MON-4_AUG_4.01-02,
THUR-2_BOR_5.10-04
Davies, Peter
WED-2_BUD_3.10-06
Collombet, Francis
Davila, Carlos
MON-4_STO_3.15-02
Di Modica, Pietro
WED-1_BRU_2.12-01
TUE-4_LON_5.01-04
Dawson, Josef
TUE-4_BOR_5.12-06
Díaz Garrido, Francisco Alberto
PO_1-05, PO_1-06
Dazhi, Jiang
MON-3_SEV_3.07-09, PO-2-37
Clegg, Harry
Coenen, Jan W.
Colmars, Julien
Comas-Cardona, Sébastien
PO-5-02
Diaz, Ana
WED-3_NAP_2.01-02
91
Autor
92
ID
Erni, Florian
WED-3_ING_6.02-02
Eroshenko, A. Yu.
TUE-2_BRU_2.09-04
Ersoy, Nuri
WED-3_VEN_3.17-01, PO-5-03
Escalera, M. Dolores
PO-2-40
Esch, Philipp
MON-2_ATH_1.01-05
Eschl, Johannes
TUE-1_BOR_5.14-03, PO-5-04
Eskandari, Sina
WED-1_MUC_3.02-05
Duchoslav, Jiri
PO-2-16, PO-3-53
Duddeck, Fabian
THUR-1_RHO_3.16-08, PO-3-17
Dudziec, B.
MON-4_NAP_2.06-14
Dufort, L.
MON-3_LON_5.06-02
Duhovic, Miro
TUE-1_BOR_5.14-03, TUE-4_STG_5.0303, WED-2_LON_5.01-10
Dul, Sithiprumnea
WED-4_LON_5.13-04
Espinassou, Denis
TUE-4_BIA_3.09-03
Dulieu-Barton, Janice
MON-4_AUG_4.01-03, TUE-1_AUG_4.0105, TUE-2_AUG_4.01-08, WED-2_
BUD_3.10-05, THUR-2_VEN_3.17-12
Etches, Julie
TUE-2_ATH_1.01-21, WED-4_LON_5.13-06
Evans, Ken
TUE-4_ING_7.02-12
Dumas, David
MON-3_BOR_5.02-03
Evernden, Mark
PO-2-46
Dumont, Pierre
TUE-2_BOR_5.14-07
Exner, Wibke
MON-3_NAP_2.06-09
Dunning Beck, Logan
MON-2_STO_3.21-03
Faber, Jan
PO-5-27
Duplessis Kergomard, Yann
MON-3_LON_5.06-02
Faes, Jana
TUE-4_BUD_3.05-13, PO-3-22
Dupont-Gillain, Christine
WED-2_BRI_2.04-15
Fagerström, Martin
MON-2_BUD_3.04-05,
MON-4_BUD_3.04-17
Durand, Bernard
MON-3_ING_6.01-09,
MON-3_NAP_2.06-11
Dzalto, Jovana
PO-2-21
Ebel, Christoph
WED-3_STG_5.04-04,
THUR-2_LON_5.05-05
MON-2_SEV_3.07-07, MON-3_BRU_2.0211, MON-3_STG_5.09-08, MON-4_
BRI_2.07-15, MON-4_MUC_3.01-15,
TUE-3_VEN_3.18-02, WED-3_AUG_4.0310, PO-2-32
Furtado, Carolina
MON-2_SEV_3.07-08
Furuta, Takefumi
PO-2-48
Füßel, René
MON-2_AUG_4.02-04,
MON-4_BRU_2.02-13
Fien, Alan
PO-3-32
Gabrion, Xavier
THUR-1_MUC_3.13-03
Fifere, Nicusor
PO-2-08
Gaddikere Nagaraja, Swaroop
WED-3_MUC_3.02-12
Fillsinger, Jürgen
THUR-2_VEN_3.17-11
Gaffiot, Lauric
PO-2-23
Filotto, Francesco M.
TUE-3_BUD_3.05-12
Gagauz, Iryna
MON-2_STO_3.21-05
Finkenwerder, Felipe Alberto
MON-2_LON_5.07-05
Galeazzi, Riccardo
Fischer, Chris
THUR-1_VEN_3.17-10
TUE-3_AUG_4.05-04,
WED-2_AUG_4.03-06
Fischer, Frederic
MON-1_STG_5.09-02
Galiotis, Costas
MON-1_BRI_2.07-02, MON-4_BRI_2.0716, WED-1_NAP_2.03-05
Fischer, Hartmut
PO-3-13
Galkin, Siegfried
THUR-2_RHO_3.16-10
Fischer, Jonas
MON-2_STG_5.09-06
Gang, Shi
PO-2-37
Fleischer, Jürgen
TUE-2_BOR_5.14-06
Gänswürger, Philipp
MON-1_STG_5.09-02
Fletcher, Timothy
TUE-4_BUD_3.05-14
Ganzenmüller, Georg
MON-4_STO_3.15-03
Fliegener, Sascha
WED-4_BIA_3.08-13
Gao, Hang
PO-3-54
Gao, Jing
WED-4_BOR_1.05-07
Gao, Kung
PO-2-44
Gao, Ying
WED-3_VEN_3.17-04
Garcea, Serafina Consuelo
MON-2_AUG_4.02-08,
MON-4_MUC_3.01-13
Fiedler, Bodo
Fagiano, Christian
MON-2_VEN_3.06-07
Flores, Araceli
MON-2_BRI_2.07-06
Fahr, Philipp
THUR-1_STO_3.20-18
Focke, Oliver
Faisst, Birgit
WED-2_BIA_3.08-06
MON-4_STG_5.09-14,
WED-4_VEN_3.17-07
Falzon, Brian
MON-1_ATH_1.01-03, TUE-4_STO_3.02-03
Fondacaro, Domenico
WED-2_STO_3.20-04
Fontaine, Stephane
WED-2_AUG_4.03-08,
THUR-1_MUC_3.13-03
Ech-Cheikh, Fouad
PO_1-10
Fambri, Luca
WED-4_LON_5.13-04
Eckel, Sebastian
WED-3_AUG_4.03-09
Fan, Haifeng
THUR-1_STG_1.05-10
Fontanier, Jean-Charles
MON-4_BRU_2.02-15
García Rodríguez, Santiago
MON-2_SEV_3.07-04
Ecker, Allison
TUE-2_BUD_3.05-06
Fanegas Martin, Nuria
PO-7-02
Forental, Galina A.
TUE-1_BIA_3.11-20
Garcia, Aquilino
PO-5-07
Eckstein, L.
WED-2_VEN_3.18-15
Fangueiro, Raul
THUR-1_STG_1.05-09
Forte, Maria Madalena de Camargo
PO-3-28
García, Julián
PO-2-55
Edelmann, Klaus
MON-2_ATH_1.01-08
Fantozzi, Gilbert
Fortea Verdejo, Marta
TUE-3_BRI_2.04-03
García-Carpintero, Alejandro
MON-3_VEN_3.06-11
Eder, Franz
TUE-3_AUG_4.05-02
TUE-2_BRU_2.09-03,
WED-1_AUG_4.03-02
Foti, Federico
MON-3_VEN_3.06-09
Garcia-Castillo, Shirley
PO_3-65
Edgren, Fredrik
PO-3-20
Fotouhi, M.
WED-2_SEV_3.22-05
Garlof, Svenja
MON-4_BRI_2.07-15
Eggers, Amke
MON-2_BRU_2.02-05, TUE-2_ING_7.02-05
Fotouhi, Mohamad
Garoz Gomez, David
Eggers, Fred
WED-2_BIA_3.08-06
MON-1_NAP_2.06-01, WED-1_SEV_3.2202, WED-2_SEV_3.22-04
MON-2_MUC_3.01-05, MON-2_VEN_3.0604, TUE-2_BUD_3.05-08, TUE-4_
BUD_3.05-13
Eguemann, Nicolas
WED-1_ING_7.02-17
Garthaus, Christian
TUE-1_STG_5.09-18
Ehard, Stefan
MON-4_LON_5.06-08, TUE-2_LON_5.0617, WED-3_ATH_1.02-13
Ge, Yangyang
MON-2_BUD_3.04-04
Gebhardt, Andreas
MON-2_ATH_1.01-05, PO-5-26
Geerinck, Ruben
WED-3_STG_5.04-02
Geh, Stefan
PO-5-09
Faria, Alfredo
MON-2_ING_6.01-01
Farkas, Laszlo
WED-1_RHO_3.05-20
Fasel, U.
THUR-1_BIA_3.19-01
Fathima, K. M. P.
TUE-3_MUC_3.01-28
Fouinneteau, Michel
TUE-2_BIA_3.11-25
Fauchery, Florent
MON-2_ATH_1.01-06
Frache, Alberto
PO-2-49
Fauster, Ewald
TUE-3_BOR_5.12-01, WED-2_STG_5.03-12
Fraldi, Massimiliano
MON-2_RHO_3.23-05
Eibl, Sebastian
TUE-4_AUG_4.05-08, PO-2-53
Fazelzadeh, S. Ahmad
TUE-3_NAP_2.06-28, PO-3-52
Främby, Johannes
MON-2_BUD_3.04-05
Eichhorn, Stephen
TUE-1_NAP_2.06-20
Fedonyuk, Nikolai
TUE-1_SEV_3.03-07
Franceschi, Carlo M.
TUE-3_BUD_3.05-12
El Assami, Yassine
MON-3_NAP_2.06-12
Fedulov, Boris
PO-3-06
Francesconi, Luca
MON-1_BIA_3.11-02
El Asswad, Mohamad
THUR-1_ATH_1.08-03
Fehri, Meriem
PO-2-39
Geier, Sebastian
MON-4_ING_6.03-02
Francucci, Gaston
Elbs, Norbert
TUE-4_ATH_1.02-03
Feldmann, Titus
TUE-4_MUC_3.01-30
THUR-1_VEN_3.17-08,
THUR-2_RHO_3.16-12
Geinitz, Steffen
WED-1_BOR_5.12-10
WED-2_ING_7.01-01
Geistbeck, Matthias
MON-2_LON_5.07-05,
TUE-4_AUG_4.05-08
Geller, S.
MON-1_AUG_4.02-02
Geng, Dongbing
PO-5-33
Geng, Lin
TUE-2_STO_3.14-01
Gérard, Jean-François
MON-1_BRU_2.02-03,
MON-4_BRU_2.02-15
Eleftheroglou, Nikolaos
WED-3_BUD_3.10-11
Felipe Sesé, Luis
PO_1-06
Frassine, R.
Elkington, Michael
MON-1_LON_5.11-02, TUE-3_LON_5.06-19
Fellner, K.
WED-2_STG_5.03-12
Fresewinkel, Christoph
WED-4_NAP_2.01-05
ElSabbagh, Adel
PO_1-01
Feng, L. N.
WED-3_VEN_3.17-04
Freund, Ludovic
THUR-1_MUC_3.13-02
ElSabbagh, Ahmed
TUE-2_ING_7.02-05
Fereidoon, A.
TUE-3_NAP_2.06-28
Friedberger, A.
WED-1_BOR_5.12-11
Elsner, Peter
PO-5-29, PO-5-30
Fernandez Villegas, Irene
Fritsch, Daniel
PO-2-32
Emonts, Michael
TUE-1_LON_5.06-11
MON-4_STG_5.09-15, WED-2_STO_3.2007, WED-4_STO_3.20-15
Fritsch, Jens
TUE-4_ATH_1.02-04, PO-3-18
Endler, Ingolf
TUE-2_BRU_2.09-01
Fernández, Daniel
MON-4_ATH_1.01-14
Fu, Rao
MON-1_STG_5.09-02
Fernández, Katia
PO-5-13
THUR-1_BOR_5.10-01,
THUR-1_BOR_5.10-02
Gérard, Pierre
Endraß, Manuel
MON-1_BRU_2.02-03,
MON-4_BRU_2.02-15
Endruweit, Andreas
Fernandez-Cañadas, Lorena M.
PO-3-57, PO_3-65
Fu, Yucan
THUR-2_BOR_5.10-05
Gereke, Thomas
TUE-2_VEN_3.06-24, WED-2_ATH_1.02-11
TUE-4_STG_5.03-05
Engelfried, Mathias
MON-3_LON_5.06-03
Fuentes, C.
WED-2_BRI_2.04-14
Gerkens, Michael
WED-2_VEN_3.18-15
TUE-4_LON_5.01-05, PO-5-01
Fernández-López, Antonio
Engemann, Heiko
Fernberg, Patrik
THUR-2_BRU_2.11-04,
THUR-2_BRU_2.11-05
Fuentes, Carlos
WED-2_BRI_2.04-14,
WED-2_BRI_2.04-15, PO-2-25
Germain, Fabrice
PO-2-52
TUE-3_ATH_1.04-03
Enrique, P.
TUE-4_STG_5.03-02
MON-2_BRI_2.07-06
Gerstenkorn, Jens
Ferrara, Claudio
MON-4_AUG_4.01-01
Fujii, Toru
Erber, Andreas
Gerster, Tobias
PO-3-18
MON-2_BRU_2.02-04,
MON-3_STG_5.09-10
Ferreira, Ricardo
MON-4_VEN_3.06-14
MON-2_VEN_3.06-08,
WED-3_BOR_1.05-04
TUE-1_BIA_3.11-18
PO-3-27
Gessler, Andreas
Ferrero, Jean-François
Fujita, Yuzo
WED-1_BOR_5.12-11,
WED-4_STG_5.04-07
Feucht, F.
TUE-1_ATH_1.01-19
Fukuda, Yasuhiro
MON-4_ATH_1.01-15
Ghaffarimejlej, Vahid
TUE-4_VEN_3.18-06
Fey, Peter
TUE-4_AUG_4.05-07
Fukushima, Gaku
MON-2_STG_5.09-04
Ghaib, Maha
WED-3_AUG_4.03-11
Fial, Julian
TUE-4_LON_5.01-05,
THUR-1_LON_5.05-02
Fuller, Jonathan
WED-1_SEV_3.22-01, WED-3_SEV_3.22-12,
WED-4_SEV_3.22-14
Ghavanloo, Esmaeal
TUE-3_NAP_2.06-28, PO-3-52
Funaki, Shogo
WED-2_BIA_3.08-05
Ghayoor, Hossein
THUR-2_BIA_3.19-08
Fürst, Christian
PO-2-16
Ghita, Oana
TUE-4_ING_7.02-12
Erdelyi, Hunor
WED-1_RHO_3.05-20
Erland, Samuel
WED-2_RHO_3.16-04,
THUR-2_RHO_3.16-11
Ermanni, Paolo
THUR-1_BIA_3.19-01, TUE-2_STG_5.0922, TUE-3_BUD_3.05-12, WED-3_
ING_6.02-03
Autor
Ghnatios, Chady
ID
TUE-1_BOR_5.14-01,
TUE-1_BOR_5.14-02, PO-5-20
Giannaros, Efthimis
PO-3-33
Gianneo, Andrea
WED-2_AUG_4.03-06
Giannis, Stefanos
PO-3-11
Gibson, Geoff
WED-1_BRU_2.12-01, WED-3_BRU_2.12-11
Giddings, Peter
PO-5-14
Gielen, Sander
PO-3-13
Goto, Keita
TUE-2_SEV_3.03-11
Guglhoer, Thomas
TUE-4_STG_5.03-04
Goto, Teruya
MON-3_BRU_2.02-10,
WED-3_BRU_2.12-09
Guillaumat, Laurent
PO-3-42, PO-5-06, PO-5-23
Hansen, Peter
TUE-2_STG_5.09-20,
THUR-2_BOR_5.10-06
Guillebaud, Claire
TUE-3_BUD_3.05-09
Gouldstone, Christopher
TUE-3_NAP_2.06-29
Goutianos, Stergios
Guillon, Damien
MON-2_BUD_3.04-07
MON-1_STG_5.09-01, MON-1_STG_5.0901, MON-2_STO_3.21-01
Happach, Wilko
PO_1-09
Hara, Eiichi
TUE-2_SEV_3.03-11
Harbers, Tobias
Gower, Michael
TUE-1_AUG_4.01-06, TUE-3_ATH_1.04-01
Guiot, Brice
WED-3_STG_5.04-04
TUE-4_STO_3.02-02
Harder, Sergej
Graciani, Enrique
MON-3_BOR_5.02-04, MON-4_MUC_3.0116, THUR-2_RHO_3.16-09
MON-2_SEV_3.07-07
Gulich, Bernd
PO-7-01
Harismendy, Isabel
Grail, Gaël
MON-1_MUC_3.01-03,
TUE-2_STO_3.14-04
MON-4_BRU_2.02-16
Gültekin, Serdar
MON-2_BRU_2.02-07
Harkin-Jones, Eileen
MON-4_BUD_3.04-13
Gündisch, Kai
WED-2_STG_5.03-10
Hartley, Jamie
WED-3_VEN_3.17-02, PO-3-13
PO-2-46
Guo, Qitao
PO-3-41
Hartmann, Matthias
TUE-2_ATH_1.01-22
Gietl, Hanns
TUE-2_BRU_2.09-05
Grammatikos, Sotirios
Giger, Lian
WED-1_ING_7.02-17
Grande, Hans-Jürgen
WED-1_ING_7.02-16
Gurcan, Sukran
PO-2-06
Hartung, Daniel
MON-3_ATH_1.01-12, TUE-2_ATH_1.01-22
MON-3_VEN_3.06-09
Grandizio, Francesco
PO-4-5
Gürkan, İdris
PO-2-56
Haselbach, Philipp Ulrich
TUE-3_ATH_1.04-02
MON-2_MUC_3.01-05, MON-2_VEN_3.0604, MON-3_BUD_3.04-12, TUE-2_
BUD_3.05-08, TUE-4_BUD_3.05-13
Gratt, Manfred
MON-3_ATH_1.01-09,
THUR-2_BIA_3.19-07
Gururaja, Suhasini
TUE-3_MUC_3.01-28,
THUR-2_BOR_5.10-07
Hasiaoui, Basma
MON-3_NAP_2.06-11
Graupner, Nina
TUE-4_BRI_2.04-09, WED-1_BRI_2.04-10
Guselnikova, Olga
Hauffe, Andreas
PO-6-01
MON-3_BOR_5.02-01,
THUR-1_VEN_3.17-10
Gillard, Adrien
PO-4-6
Graupner, Robert
WED-2_STG_5.03-11
Gusenbauer, Christian
MON-2_AUG_4.02-07
Haug, Eberhard
PO-3-17
Gillibert, Jean
WED-3_STG_5.04-03
Greb, Christoph
MON-3_STO_3.21-07
Gutkin, Renaud
TUE-2_SEV_3.03-12
Hausmann, Joachim
Ginesu, Francesco
MON-1_BIA_3.11-02
Greenhalgh, Emile
Gutkin, Renaud
MON-1_RHO_3.23-03, PO-6-09
TUE-4_STO_3.02-01, WED-2_MUC_3.0211, PO-3-20
TUE-1_BOR_5.14-03, WED-1_BUD_3.1001, WED-2_LON_5.01-10, THUR-1_
STO_3.20-16
Giordano, Maddalena
MON-2_BIA_3.11-08, TUE-2_BRI_2.08-02,
WED-3_ATH_1.02-14, PO-3-39, PO-6-03
WED-4_STO_3.20-15
Gutschon, Matthias
MON-1_STG_5.09-02
WED-1_BIA_3.08-03
MON-3_NAP_2.06-10
Grefe, Hinrich
Hausnerova, B.
Giordano, Maria Carmen
PO-6-07
TUE-3_ATH_1.04-01
Guttmann, Peter
THUR-2_STG_1.05-11
Havar, Tamas
Giordano, Michele
Gregory, Andrew
WED-2_RHO_3.16-05,
THUR-2_BUD_3.10-20
Girardot, Aurore
MON-4_SEV_3.03-03
Greiner, J.
TUE-3_AUG_4.05-02
Guyon, Pierre
TUE-4_LON_5.01-04
Haverkamp, Vico
WED-3_AUG_4.03-10
Giusto, Giovangiuseppe
MON-2_RHO_3.23-05
Greisel, Michael
TUE-4_NAP_2.03-04
Guzman de Villoria, Roberto
Hawkins, Stephen
MON-1_ATH_1.01-03
Gizik, Daniel
WED-3_STG_5.04-01,
WED-4_STG_5.04-06
Grieco, Massimiliano
MON-2_BRI_2.07-05, TUE-3_STO_3.1406, THUR-2_BRU_2.11-06
PO-4-5
MON-3_VEN_3.06-12
Hayes, S. A.
MON-2_ING_6.01-03
Gries, Thomas
Guzman maldonado, Eduardo
MON-1_RHO_3.23-03, MON-2_STG_5.0907, MON-3_STO_3.21-07, TUE-4_
BOR_5.12-05, TUE-4_BOR_5.12-06, WED3_NAP_2.01-01, WED-4_NAP_2.01-05,
THUR-1_LON_5.05-03, PO_1-09, PO_1-11,
PO-2-04, PO-2-41, PO-5-19, PO-5-22
Habek, Malek
PO-3-40
Hazimeh, Rachad
WED-2_STO_3.20-08
Häberle, Leonhard
MON-1_STG_5.09-02
He, Jun
WED-4_BOR_1.05-06
Haddad, Mohamed
PO-3-42
He, Mingchang
MON-3_SEV_3.07-09
Haddar, Mohamed
THUR-1_BRU_2.11-03, PO-2-39
Heckner, Sebastian
TUE-4_AUG_4.05-08
Heidary, Hossein
PO-5-25
Heieck, Frieder
MON-2_STO_3.21-04, MON-4_ATH_1.0114, MON-4_BRU_2.02-16, TUE-1_
LON_5.06-12, TUE-3_AUG_4.05-02,
PO-5-01
Heimbs, Sebastian
MON-4_STO_3.15-03
Heinrich, Frank
THUR-2_BUD_3.10-19
Heinzl, Christoph
MON-2_AUG_4.02-06
Heitzmann, Michael T.
THUR-2_NAP_2.01-10
Hejjaji, Akshay
THUR-2_BOR_5.10-04
Helbig, Reinhard
WED-4_STG_5.04-05
Hellström, Peter
MON-3_SEV_3.07-10
Helwig, Andreas
TUE-4_AUG_4.05-08
Hendrickx, Kevin
WED-4_BRI_2.04-21
Hendrikx, Niels
WED-2_BRI_2.04-15
Henke, Thomas
WED-2_STG_5.03-09
Henning, Frank
MON-2_LON_5.07-02, MON-2_STG_5.0905, MON-3_STO_3.21-09, TUE-4_
STG_5.03-02, WED-2_LON_5.01-09,
WED-2_STG_5.03-10, PO-5-04, PO-5-31,
PO-5-34
Gigliotti, Marco
Gilabert, Francisco A.
Gloggnitzer, Stefan
THUR-2_STG_1.05-11
Glud, Jens Ammitzbøll
WED-2_BUD_3.10-05,
WED-4_BUD_3.10-14
Gluhov, I. A.
TUE-2_BRU_2.09-04
Glunizkij, Nikolai
TUE-2_AUG_4.01-10
Gnädinger, Michael
WED-1_STO_3.20-02
Go, Teresa
PO-2-41
Gobrecht, Jens
WED-3_NAP_2.01-02
Goda, Koichi
WED-3_NAP_2.01-03, PO-2-26, PO-3-04
Godin, Déric
MON-4_LON_5.06-09
Godin, Nathalie
TUE-2_BRU_2.09-03,
WED-1_AUG_4.03-02
Goergen, Christian
WED-2_LON_5.01-10
Gohil, Udit
PO_1-11
Goller, Barbara
MON-3_ATH_1.01-09
Gomes de Almeida, F.
WED-1_BOR_5.12-09
Gómez-Fatou, M. A.
MON-2_BRI_2.07-06
Gomina, Moussa
TUE-4_BRI_2.04-09
Goncalves, Nuno
MON-4_VEN_3.06-14
Gong, Xiaojing
MON-2_BUD_3.04-04,
WED-4_BUD_3.10-13
González, Carlos
González, Emilio
Griskevicius, Paulius
PO-3-02
Hadden, Rory M.
WED-2_BRU_2.12-06
Groh, Fabian
MON-4_BOR_5.02-08
Haeske, Marcel
THUR-1_LON_5.05-03
Grohmann, Yannis
MON-4_LON_5.06-07
Hägele, Dominik
TUE-4_LON_5.01-05
Gronenborn, Stephan
TUE-1_LON_5.06-11
Hähnel, Falk
THUR-1_VEN_3.17-10
Gross, Lutz
TUE-4_SEV_3.03-18
Hajiali, Faezeh
MON-3_BRU_2.02-09
Grosse, Christian
TUE-4_AUG_4.05-06,
TUE-4_AUG_4.05-08
Hajlane, Abdelghani
TUE-4_NAP_2.03-03, PO-2-03
Haller, Herbert
THUR-2_BIA_3.19-07
Hallett, Stephen
MON-2_STO_3.21-05, MON-4_BOR_5.0207, MON-4_BUD_3.04-14, WED-3_
BUD_3.10-10, WED-4_BUD_3.10-15,
THUR-2_RHO_3.16-13
Grössing, Harald
WED-2_STG_5.03-12
Grossman, Madeleine
WED-3_ING_6.02-02
Grouve, Wouter
TUE-2_LON_5.06-16
Grove, Stephen
WED-2_BUD_3.10-07
Groves, R. M.
TUE-1_AUG_4.01-07
Grüber, Bernd
PO-5-21
Grund, Dominik
TUE-4_AUG_4.05-05
Grunevald, Yves-Henri
MON-4_AUG_4.01-02
Grünewald, Jonas
THUR-2_VEN_3.17-11
Grützner, Raik
TUE-1_STG_5.09-18
MON-1_BOR_5.08-02, MON-2_AUG_4.0205, MON-2_MUC_3.01-06, MON-3_
VEN_3.06-11, MON-4_MUC_3.01-14,
TUE-3_STO_3.14-06
Grzelak, Michał
MON-4_NAP_2.06-14
Gschoßmann, Sandra
WED-2_AUG_4.03-05
Guan, Z.
PO-3-46
MON-1_SEV_3.07-02, MON-3_SEV_3.0710, TUE-2_SEV_3.03-09, MON-4_
BIA_3.11-16
Gude, Maik
MON-1_AUG_4.02-02, MON-2_AUG_4.0204, MON-4_BRU_2.02-13, TUE-1_
STG_5.09-18, TUE-1_VEN_3.06-20, TUE2_VEN_3.06-21, WED-1_VEN_3.18-10,
WED-3_MUC_3.02-15, WED-4_BUD_3.1015, THUR-2_AUG_8.01-03
González-Cantero, Juan Manuel
THUR-2_RHO_3.16-09
Gorbatikh, Larissa
TUE-2_AUG_4.01-11, TUE-4_MUC_3.0129, WED-1_SEV_3.22-03, PO-5-11
Gordon, Barbara
MON-4_BUD_3.04-14
Gornet, Laurent
WED-2_VEN_3.18-16,
THUR-1_BUD_3.10-16
Gortner, Florian
WED-3_BRI_2.04-17
Gudladt, H.-J.
TUE-1_ATH_1.01-18
Gueguen, Mikael
PO-2-52
Güemes, A.
MON-3_LON_5.06-03
Guesdon, Charlotte
MON-1_MUC_3.01-03
Hallström, Stefan
THUR-2_STO_3.20-19
Halm, Damien
WED-3_BRU_2.12-10, PO-2-52
Ham, Soo Jin
MON-3_STG_5.09-11
Hamamoto, Akira
MON-1_ATH_1.01-01
Hamerton, Ian
WED-4_LON_5.13-05, PO-5-08
Hamila, N.
MON-2_VEN_3.06-05
Ha-Minh, Cuong
TUE-3_MUC_3.01-26
Hamonou, Romain
WED-2_VEN_3.18-16
Han, Dong
MON-4_BRI_2.07-17
Henry, Joel
TUE-2_BRI_2.08-04, TUE-2_STO_3.14-05
Han, Min-Woo
PO-6-02
Henry, Lucile
TUE-4_ING_7.02-14
Han, Ne Myo
MON-1_BRI_2.07-03
Hergan, Patrick
TUE-3_BOR_5.12-01
Han, Sungjin
MON-4_BUD_3.04-16
Hermann, Tino
WED-2_STG_5.03-09
Hanaki, Koushu
TUE-2_BOR_5.14-04
Herraez, Miguel
Hangs, Benjamin
MON-3_STO_3.21-09
MON-4_MUC_3.01-14,
TUE-3_STO_3.14-06
Hanke, Michael
MON-4_ATH_1.01-16
Herrera-Ramírez, Luis Carlos
Hannemann, Benedikt
TUE-2_BRI_2.08-01
MON-2_BRI_2.07-05,
THUR-2_BRU_2.11-06
Hannesschläger, Christian
WED-4_BIA_3.08-14
Herrla, Florian
TUE-4_ATH_1.02-03
Hansen, Finn Knut
PO-2-36
Herrmann, Axel S.
MON-4_ATH_1.01-13, MON-4_STG_5.0914, WED-4_VEN_3.17-07
93
Autor
Hoos, Kevin
MON-1_ATH_1.01-02,
MON-3_MUC_3.01-10
Inal, Kaan
MON-2_MUC_3.01-08,
WED-1_RHO_3.05-18
Jimenez-Suarez, A.
PO-2-29
Jishi, Hassan
TUE-4_BRU_2.14-07
Joannès, Sébastien
TUE-2_BUD_3.05-04,
WED-3_BIA_3.08-11, PO-3-16
Herrmann, Guido
WED-4_LON_5.13-06
Horejsi, Konstantin
PO_1-02
Inoue, Takuma
MON-1_BUD_3.04-03
Herrmann, Stefan
WED-1_ATH_1.02-07
Horn, Bernhard
Iqbal, Akm Asif
PO-3-05
Hervé-Luanco, Eveline
TUE-2_BUD_3.05-04
THUR-2_LON_5.05-05,
TUE-2_ING_7.02-07
TUE-1_LON_5.06-12
Joern, Paul
MON-4_STO_3.15-01
MON-4_BUD_3.04-15
Horn, Siegfried
Irastorza, Xabier
Herwan, Jonny
Irisarri, François-Xavier
THUR-1_RHO_3.16-07
Joffe, Roberts
Hesse, Linnea
WED-3_ING_6.02-04
Ishak, Hassoun
TUE-1_STO_3.15-06
TUE-4_NAP_2.03-03,
THUR-2_BRU_2.11-05, PO-2-03
Hesse, Simon
MON-4_BIA_3.11-14
TUE-4_ING_7.02-14, TUE-4_NAP_2.03-04,
WED-1_NAP_2.03-07, WED-2_VEN_3.1817, WED-3_NAP_2.01-04, THUR-1_
NAP_2.01-09
Ishibashi, Masaru
WED-3_BRU_2.12-09
Johansen, Kerstin
MON-1_LON_5.11-03
Heux, Laurent
PO-2-23
Ishida, Osuke
MON-2_STG_5.09-04
John, Marianne
WED-3_VEN_3.17-03
Hia, Iee Lee
PO-6-05
Ishida, Yuichi
WED-3_BRU_2.12-09, PO-2-48
Johnsen, Bernt B.
PO-2-36
Hickmann, Stefan
THUR-1_BUD_3.10-18
Ishikawa, Takashi
TUE-2_SEV_3.03-11
Johnson, Kevin
WED-2_RHO_3.16-04
Hidalgo, Juan P.
WED-2_BRU_2.12-06
Itho, Shoji
WED-3_BRU_2.12-09
Jones, Arthur
Hiermaier, Stefan
MON-1_BIA_3.11-03, TUE-4_ATH_1.02-04
TUE-4_STG_5.03-05,
WED-2_MUC_3.02-07
Ivañez, Inés
PO-3-57, PO_3-65
Higham, M.
Jonsson, Marie
MON-1_LON_5.11-03
PO-3-29
Ivanov, Dmitry
MON-4_BOR_5.02-07, TUE-1_VEN_3.0618, WED-4_LON_5.13-05
Joppich, Tobias
WED-2_LON_5.01-09
Joshi, Prabij
TUE-3_SEV_3.03-17
Jounnigot, Stephane
PO-4-6
Ju, Su
MON-3_SEV_3.07-09
Judaschke, Rolf
TUE-3_ATH_1.04-01
Julien, Cathelin
WED-4_BIA_3.08-15
Julien, Cédric
TUE-1_SEV_3.03-06, TUE-4_BIA_3.09-03
Jung, Minhye
PO-2-15
Jürgens, Michael
MON-4_LON_5.06-08,
THUR-2_STO_3.20-23
Jurkiewiez, Bruno
THUR-2_STG_1.05-12
Justo Estebaranz, Jesús
MON-3_BOR_5.02-04,
WED-3_LON_5.13-03
Hornig, Andreas
TUE-1_VEN_3.06-20, TUE-2_VEN_3.06-21
Horoschenkoff, Alexander
MON-4_ING_6.03-04
Höschen, Till
TUE-2_BRU_2.09-05
Hosoi, Atsushi
MON-2_NAP_2.06-06, PO-3-27
Hsiao, Sheng-Tsung
MON-2_BRI_2.07-08
Hu, Hong
TUE-2_VEN_3.06-23
Hu, X.F.
MON-3_BUD_3.04-10
Hu, Xiao
MON-3_BRI_2.07-09
Ivanova, Ivelina
WED-4_BOR_1.05-05
Hu, Yile
THUR-2_BUD_3.10-22
Ivens, Jan
MON-4_STG_5.09-12, TUE-2_VEN_3.0622, TUE-3_VEN_3.18-04, WED-2_
RHO_3.16-05, WED-3_SEV_3.22-11,
THUR-1_STO_3.20-18
Huang, Kede
WED-1_BRI_2.04-11
TUE-3_BRU_2.14-03, WED-3_BRI_2.0420, WED-3_STG_5.04-02, WED-4_
BRI_2.04-21
Huang, Lu Jun
TUE-2_STO_3.14-01
Huang, Sam
MON-1_MUC_3.01-01
Hirai, Kenichi
MON-4_ATH_1.01-15
Huber, Otto
THUR-2_VEN_3.17-14
Hiramatsu, Syotaro
PO-2-26
Hubert, Pascal
Hirano, Noriyuki
WED-2_BIA_3.08-05
MON-1_RHO_3.23-02,
THUR-1_LON_5.05-03
Hirano, Yoshiyasu
WED-3_BRU_2.12-09
Huchette, Cédric
TUE-4_BIA_3.09-03, WED-2_BRU_2.12-04
Hirashima, Tei
TUE-4_LON_5.01-02
Hueber, Christian
PO_1-02
Hirota, Kazuma
MON-4_NAP_2.06-17
Huelsbusch, Daniel
MON-4_BIA_3.11-15, MON-4_STO_3.15-04
Hirsch, Franz
TUE-4_BUD_3.05-16
Hufenbach, Werner
WED-3_MUC_3.02-15
Hirsekorn, Martin
MON-2_VEN_3.06-07
Hühne, Christian
Hivet, Gilles
PO-3-22
MON-2_RHO_3.23-06, MON-4_BOR_5.0208, TUE-2_AUG_4.01-09, TUE-2_
BIA_3.11-23, THUR-2_VEN_3.17-13
Hoa, Suong V.
MON-2_NAP_2.06-08, MON-4_LON_5.0609, THUR-2_BIA_3.19-08
Hochard, Christian
MON-4_SEV_3.03-03,
WED-1_MUC_3.02-04
Higuchi, Ryo
TUE-4_AUG_4.05-09, PO-3-21
Hine, Peter
WED-1_BIA_3.08-01, WED-1_BIA_3.0802, WED-3_BIA_3.08-09
Hinterhölzl, Roland
94
ID
Hümbert, Martina
TUE-1_STG_5.09-17
Hurez, Anita
MON-2_BUD_3.04-04
Hüther, Jonas
THUR-1_NAP_2.01-08
Hodde, Jan
PO-5-09
Hwang, Hui Yun
PO-3-31
Hoffmann, Jeannette
PO_1-12
Hwang, Sang-Kyun
PO-3-31
Hoffmann, Jürgen
WED-2_ATH_1.02-09
Hwu, Chyanbin
PO-3-23
Hoffmann, Leo
WED-2_BIA_3.08-06
Iadonisi, Alfonso
THUR-1_ING_6.02-09
Hoffmann, Marco
THUR-2_BUD_3.10-20,
TUE-4_SEV_3.03-20
Iannace, Salvatore
TUE-4_BRU_2.14-05, PO-2-49
Iannucci, Lorenzo
MON-2_BIA_3.11-08, TUE-2_BIA_3.11-25,
TUE-2_BRI_2.08-02, WED-3_ATH_1.02-14,
WED-3_LON_5.13-02, WED-3_SEV_3.2209, PO-6-03
Hofmann, Marcel
PO-7-01
Hofmann, T.
TUE-1_ATH_1.01-18
Hogger, Thomas
WED-2_ATH_1.02-08
Høgsberg, Jan
TUE-3_BIA_3.12-01
Hohmann, Andrea
WED-2_ING_7.01-02, WED-2_ING_7.01-03
Höhn, Mandy
TUE-2_BRU_2.09-01
Höhne, Robin
THUR-2_BRI_2.13-03
Hojjati, Mehdi
TUE-3_ING_7.02-08, THUR-2_BIA_3.19-08
Hojo, Masaki
MON-1_BUD_3.04-03,
MON-2_RHO_3.23-04
Holden, Gary
MON-4_BUD_3.04-14
Holle, Joern
TUE-4_ATH_1.02-01
Holler, Mirko
WED-3_NAP_2.01-02
Holtmannspötter, Jens
TUE-1_ATH_1.01-18, TUE-1_ATH_1.01-19
Holzhüter, Dirk
MON-2_RHO_3.23-06,
TUE-2_AUG_4.01-09
Hombach, Volker
THUR-1_LON_5.05-03
Hoo, Boju
PO-3-32
Iwata, Akira
TUE-4_LON_5.01-02
Izor, Sarah
WED-3_LON_5.13-01
Jacquemin, Frédéric
TUE-1_STO_3.15-06, WED-2_VEN_3.18-16
Jäger, Hubert
MON-4_BRU_2.02-13
Jalalvand, Meisam
WED-1_ING_7.02-18, WED-1_SEV_3.22-01,
WED-1_SEV_3.22-02, WED-2_SEV_3.2204, WED-2_SEV_3.22-05, WED-4_
SEV_3.22-14
James, Thomas
WED-2_ATH_1.02-10
Jandt, Klaus D.
TUE-1_VEN_3.06-19, PO-2-10
Kabel, Matthias
WED-4_BIA_3.08-13
Janetzko, Steffen
MON-2_BRU_2.02-04
Kaboglu, Cihan
PO-3-47
Jang, Jinhyeok
MON-4_BUD_3.04-16
Kaddah, Fouad
TUE-2_BUD_3.05-05
Jansen, F.
WED-2_VEN_3.18-13
Kaddami, Hamid
TUE-4_NAP_2.03-03, PO-2-03
Janssen, Henning
TUE-1_LON_5.06-11
Kaesmeier, Georg
TUE-4_ATH_1.02-01
Janssens, Y.A.
WED-1_MUC_3.02-06
Kaiser, Benjamin
PO-3-17
Jarczyk, Robert
MON-2_ATH_1.01-08
Kalafat, Sinan
MON-3_AUG_4.04-02
Jarne Ornia, Daniel
WED-1_BRU_2.12-02
Kalaitzidou, Kyriaki
WED-1_ATH_1.02-06, PO_1-08
Jaschinski, J.
WED-1_VEN_3.18-11
Kalamkarov, Alexander
MON-2_SEV_3.07-06
Jäschke, Peter
TUE-1_STG_5.09-19, TUE-2_STG_5.0920, THUR-2_AUG_8.01-01, THUR-2_
BOR_5.10-06, THUR-2_BOR_5.10-08
Kallio, Pasi
MON-3_AUG_4.04-03
Kallweit, Stephan
TUE-3_ATH_1.04-03
Kalyanasundaram, Shankar
PO-3-51
Kaminski, Myriam
TUE-2_BRU_2.09-03
Kammerhofer, Philipp
WED-2_ING_7.01-03,
THUR-2_MUC_3.13-06
Jayaraman, Krishnan
TUE-3_BIA_3.12-04
Jazouli, Said
THUR-2_BIA_3.19-06
Jeenjitkaew, Choothum
TUE-2_STG_5.09-20
Iarve, Endel
MON-1_ATH_1.01-02, MON-3_MUC_3.0110, MON-4_SEV_3.03-05
Jenkins, Peter
TUE-3_ING_7.02-09
Kamon, Satoru
TUE-2_NAP_2.06-24
Ibáñez-Gutiérrez, Francisco T.
PO-3-03
Jeon, Gyung Soo
PO_1-07
Kan, Mitsuharu
TUE-4_BIA_3.09-04
Ibragimov, E. A.
TUE-2_BRU_2.09-04
Jeong, Kun
MON-2_NAP_2.06-07
Kandemir, Sinan
MON-2_NAP_2.06-04
Ichikawa, Tomoko
WED-1_SEV_3.22-03
Jeong, Su-Gwang
PO-2-47
Kanerva, Mikko
WED-3_BUD_3.10-09
Ienny, Patrick
TUE-4_ING_7.02-15, THUR-1_MUC_3.1301, THUR-1_MUC_3.13-03
Jerabek, Michael
WED-2_BIA_3.08-07, WED-4_BIA_3.08-14
Kanesaki, Manato
Jeschke, Sabina
TUE-4_BOR_5.12-05
MON-1_BUD_3.04-03,
MON-2_RHO_3.23-04, PO-2-14
Jespersen, Kristine Munk
MON-1_AUG_4.02-03
Kang, Chung-gil
TUE-4_VEN_3.18-07
Jesson, David
TUE-1_AUG_4.01-06
Kang, Yujin
PO-2-47
Jia, Zhenyuan
THUR-1_BOR_5.10-01,
THUR-1_BOR_5.10-02
Kano, Yuuki
TUE-2_SEV_3.03-11
Kapoor, Seema
TUE-2_NAP_2.06-22
Kappel, Erik
MON-3_BOR_5.02-02,
MON-4_BOR_5.02-08
Karaki, Takuya
THUR-2_BUD_3.10-21
Karb, Ingo
TUE-4_LON_5.01-05
Kärger, Luise
TUE-4_STG_5.03-02, WED-2_LON_5.0109, WED-2_STG_5.03-10, THUR-2_
RHO_3.16-10
Ierides, Marcos
THUR-2_AUG_8.01-02
Ihde, Jörg
TUE-1_STG_5.09-19
Ilg, Robert
WED-2_ING_7.01-02
Illikainen, Mirja
MON-4_NAP_2.06-16
Imai, Erina
MON-3_MUC_3.01-09, PO-3-21
Jiang, Hongfei
PO-5-12
Imamura, Shota
PO-5-12
Jiang, Lili
TUE-2_VEN_3.06-23
Imamura, Tatsuya
TUE-1_SEV_3.03-08
Jiang, Qixiang
Imbert, Mathieu
PO-5-02
MON-3_ING_6.01-08,
TUE-4_BRU_2.14-08
Inaba, Kazuaki
MON-1_MUC_3.01-02
Jianwei, Zhang
PO-2-37
Jiao, Fei
TUE-3_MUC_3.01-25
Autor
ID
Kassapoglou, Christos
MON-4_BIA_3.11-14
Kastner, Johann
MON-2_AUG_4.02-06, MON-2_AUG_4.0207, WED-4_BIA_3.08-14
Kästner, M.
TUE-4_BUD_3.05-16
Katafiasz, Tomas
TUE-2_BRI_2.08-02
Katnam, Kali
MON-1_RHO_3.23-01
Kaufmann, Jörg
WED-3_STG_5.04-01
Kaufmann, Patrick
MON-1_LON_5.11-01
Kaushik, Anupama
PO-2-18
Kaveendran, Balasubramaniam
TUE-2_STO_3.14-01
Kawabe, Kazumasa
WED-2_BRU_2.12-05
Kawada, Hiroyuki
MON-2_NAP_2.06-06, PO-3-27
Kawagoe, Makoto
WED-3_BIA_3.08-10
Kawai, Masamichi
WED-2_BIA_3.08-05
Kawalla, R.
WED-1_VEN_3.18-11
Kawamura, Yusuke
PO-5-18
Kawashima, Ai
THUR-2_BRI_2.13-04
Kawashita, Luiz
MON-2_STO_3.21-05,
WED-3_BUD_3.10-10
Kazakov, Mark
TUE-2_MUC_3.01-22, PO-3-25
Kazunori, Takagaki
TUE-3_BOR_5.12-04
Kchit, Nadir
TUE-3_NAP_2.06-27
Kedziora, Gary S.
TUE-2_BUD_3.05-06
Kehrer, Loredana
TUE-3_BUD_3.05-11
Keith, Matthew
WED-2_ING_7.01-04
Kelch, Milan
TUE-4_NAP_2.03-02
Keller, Andre
WED-1_LON_5.01-08
Keller, Clément
THUR-1_BRU_2.11-03
Keller, Thomas
WED-1_BUD_3.10-02, THUR-1_STG_1.0510
Kempa, Martin
TUE-3_AUG_4.05-01
Kempf, Manuel
MON-3_ATH_1.01-11
Kenane, Mohamed
PO-3-40
Kennerknecht, Tobias
WED-4_BIA_3.08-13
Kerber, Adrian
TUE-4_BOR_5.12-05
Kerstan, Frank
TUE-4_ATH_1.02-01
Kervoelen, Antoine
TUE-4_BRI_2.04-09
Keunings, Roland
TUE-2_BOR_5.14-05
Khaleque, Tasnuva
TUE-2_NAP_2.06-23
Khalil, Khaled
THUR-1_ATH_1.08-03,
WED-2_STO_3.20-08
Khan, M. A.
WED-1_LON_5.01-06
Khimich, Margarita
TUE-2_BRU_2.09-04
Kilchert, Sebastian
PO-3-18
Kim, Byung Chul
MON-4_LON_5.06-05,
TUE-2_LON_5.06-14, PO-5-32
Kim, Da Hye
MON-2_NAP_2.06-07
Kim, Hyung-Il
PO-6-02
Kim, Jang-Kyo
MON-1_BRI_2.07-03, MON-2_BRI_2.07-04
Kim, Jin-Young
PO-4-1
Kim, Sang Woo
PO-2-09
Kim, Seong Su
MON-2_BRU_2.02-06, MON2_NAP_2.06-07, MON-3_STG_5.09-11,
TUE-3_BRU_2.14-04, WED-3_STO_3.2011, PO-2-15
Kim, Shin-O
MON-2_BOR_5.08-05
Kim, Sumin
PO-2-47
Kim, Taesung
MON-2_NAP_2.06-06
Kotzakolios, Athanasios
PO-3-33
Kurauchi, Kai
PO-5-18
Kimpara, Isao
MON-2_RHO_3.23-04
Koukaras, Emmanuel
MON-1_BRI_2.07-02
Kurek, Alexander
TUE-4_NAP_2.03-04
King, Shari
WED-1_RHO_3.05-18
Koutroumanis, Nikos
WED-1_NAP_2.03-05
Kusukawa, K.
PO-5-05
Kinloch, Ian
MON-1_BRI_2.07-01, MON-4_BRI_2.07-13,
MON-1_BIA_3.11-01, TUE-2_MUC_3.01-22
Kovalevskaya, Zhanna G.
TUE-2_BRU_2.09-04
Kweon, Hyun-Jeong
PO-4-1
Koyanagi, Jun
MON-3_MUC_3.01-09,
MON-4_ATH_1.01-15, PO-3-21
Kyosev, Yordan
MON-3_VEN_3.06-10
Laberge Lebel, Louis
TUE-2_STG_5.09-21, WED-4_BRI_2.04-23
Ladevèze, Pierre
TUE-3_MUC_3.01-26,
WED-2_MUC_3.02-09
Ladstätter, Elisabeth
MON-2_BOR_5.08-04, MON-3_LON_5.0604, MON-4_LON_5.06-08, TUE-2_
STG_5.09-23, WED-2_ATH_1.02-09,
THUR-2_STO_3.20-23
Kiryu, Yoshiaki
PO-3-35
Kishimoto, Kikuo
MON-1_MUC_3.01-02
Kracke, Christoph
MON-2_STO_3.21-02
Kitada, Junichi
MON-2_STG_5.09-04
Krahl, Michael
WED-1_VEN_3.18-10
Kitagawa, Tomotaka
PO-2-14
Krämer, Alexander
WED-1_VEN_3.18-10
Kitamura, Ryuta
PO-3-04, PO-3-07
Kramer, Erich
MON-3_SEV_3.07-11
Klett, Yves
THUR-1_VEN_3.17-09
Krasnobrizha, Alina
THUR-1_BUD_3.10-16
Kliem, Mathias
TUE-3_BIA_3.12-01
Kratz, James
TUE-4_STO_3.02-02
TUE-3_AUG_4.05-02
MON-4_BIA_3.11-14, MON-4_BOR_5.0207, WED-3_VEN_3.17-02, PO-3-09,
PO-5-08
Laeuffer, Hortense
Kling, M.
Lahellec, Noël
Knippenberg, J. J. M.
MON-3_VEN_3.06-11
MON-4_SEV_3.03-03,
WED-1_MUC_3.02-04
Krause, Dieter
WED-4_VEN_3.17-06
Knoch, M.
MON-1_STG_5.09-03
Lahuerta, Francisco
TUE-1_AUG_4.01-07
Krbetschek, Christina
WED-1_VEN_3.18-11
Koaik, Alaa
THUR-2_STG_1.05-12
Laiarinandrasana, Lucien
MON-1_VEN_3.06-03, PO-3-16
Kreling, Stefan
WED-4_STO_3.20-15
Kobayashi, Daiki
MON-4_STG_5.09-13
Lainé, Eric
WED-1_BRU_2.12-02, PO-2-52
Krell, Thomas
TUE-1_ATH_1.01-17
Kobayashi, Masatoshi
WED-1_LON_5.01-07, WED-2_LON_5.01-12
Lamanna, Giuseppe
PO-2-22
Kremberg, Jan
MON-4_ATH_1.01-13
Kobayashi, Yoshiki
PO-3-36
Lamb, G.
WED-2_STG_5.03-09
Kress, Gerald
TUE-3_BUD_3.05-12
Kobiki, Akira
MON-3_STO_3.21-06
Lamon, Jacques
Kreutzbruck, Marc
TUE-3_MUC_3.01-26,
THUR-2_NAP_2.01-11
Koch, Christian
MON-2_BOR_5.08-04,
MON-3_STO_3.21-07
TUE-2_AUG_4.01-10, TUE-4_AUG_4.0507, WED-2_AUG_4.03-04
Lange, Jörg
THUR-2_VEN_3.17-15
Kreutzmann, Monika
THUR-1_RHO_3.16-06
Koerber, Hannes
MON-3_STG_5.09-10, MON-4_BIA_3.11-17
Langner, Hauke H.
WED-3_AUG_4.03-10
Kreuzhage, Silke
MON-3_STG_5.09-09
Koerdt, Maximilian
MON-4_STG_5.09-14
Lani, Frederic
WED-1_MUC_3.02-06
Kriegseis, Jochen
WED-2_STG_5.03-10
Koerner, Hilmar
WED-3_LON_5.13-01
Lanza, Gisela
TUE-2_BOR_5.14-06
Kroll, Lothar
WED-3_STG_5.04-01
Kohler, Sébastien
MON-1_SEV_3.07-01
Lapena, Mauro
PO-2-01
Krollmann, Jan
Köhler, Thomas
PO-5-19
MON-1_BOR_5.08-03,
MON-2_BOR_5.08-07
Lapointe, Felix
TUE-2_STG_5.09-21, WED-4_BRI_2.04-23
Kohli, Suchita
TUE-2_NAP_2.06-22
Krombholz, Christian
TUE-3_LON_5.06-21, PO-5-15
Larsson, Ragnar
WED-2_MUC_3.02-11
Kohlschreiber, Ina
THUR-1_NAP_2.01-08
Kropka, Michael
TUE-3_STG_5.09-27
Lässig, Torsten
MON-1_BIA_3.11-03,
MON-3_BIA_3.11-09, PO-3-08
Kok, Thijs
TUE-2_LON_5.06-16
Krug, Mario
TUE-2_BRU_2.09-01
Latifi, Mohammad
MON-3_BUD_3.04-11
Köke, Hardy
TUE-2_BIA_3.11-23
Krundaeva, Anastasiia
MON-2_BIA_3.11-06
Lau, Kin-tak
TUE-2_ATH_1.01-21
Kollmannsberger, Andreas
MON-3_LON_5.06-04,
TUE-2_LON_5.06-17
Kruse, Thomas
WED-1_STO_3.20-01
Laukmanis, Eva
WED-1_NAP_2.03-07
Krzyzak, Aneta
PO-3-63
Komatsuda, Kazuki
THUR-2_MUC_3.13-05
Laure, Patrice
TUE-2_BOR_5.14-07
Kšiňan, Filip
WED-3_MUC_3.02-13
Komornicki, Jacques
THUR-2_AUG_8.01-02
Laurencin, Tanguy
TUE-2_BOR_5.14-07
Kuan, Chen-Feng
PO-2-51
Konagaya, Shigeji
MON-2_BRI_2.07-07
Laurent, Fabrice
MON-3_NAP_2.06-11
Kuan, Hsu-Chiang
PO-2-51
Kondo, Atsushi
MON-4_BUD_3.04-15, TUE-3_SEV_3.03-17
Laurin, Frederic
TUE-1_SEV_3.03-06
Kubohori, Fumio
TUE-3_STG_5.09-26, PO-5-12
Konstantakopoulou, Maria
THUR-2_STO_3.20-20
Lauter, Christian
WED-2_VEN_3.18-14
Kubota, Yuki
PO-2-48
Konstantopoulos, Spiridon
TUE-3_BOR_5.12-03
Lavelle, Florian
TUE-4_STO_3.02-02
Kucher, Georg
PO-3-62
Konsztowicz, Krzysztof
MON-2_MUC_3.01-07,
WED-1_AUG_4.03-01
Lavorgna, Marino
PO-2-49
Kugele, Daniel
WED-2_STG_5.03-10
Le Corre, Steven
TUE-2_BOR_5.14-07, WED-1_STG_5.03-08
Kontturi, Eero
WED-4_NAP_2.01-06
Kühlewind, Rico
WED-3_BUD_3.10-10
Le Duigou, Antoine
WED-1_BRI_2.04-12
Korkiakoski, Samuli
WED-3_BUD_3.10-09
Kühn, Alexandra
MON-4_LON_5.06-07
Le Ferrand, Hortense
WED-3_ING_6.02-03
Körwien, Thomas
WED-1_STO_3.20-01
Kühn, Florian
MON-1_STG_5.09-03
Le Gal La Salle, Eric
TUE-2_ING_7.02-06, TUE-3_ING_7.02-10
Kosaka, Tatsuro
PO-5-05
Kühn, Markus
MON-4_STG_5.09-16
Le Moigne, Nicolas
TUE-4_BRI_2.04-08
Kose, Kim
WED-2_BIA_3.08-06
Kuhn, Peter
MON-4_BIA_3.11-17
Le Roux, Sabine
THUR-2_BOR_5.10-04
Kosmann, Jens
MON-2_RHO_3.23-06,
TUE-2_AUG_4.01-09
Kühnel, Michael
THUR-2_LON_5.05-06
Le Roy, Robert
PO-3-48
Kuhtz, Moritz
TUE-2_VEN_3.06-21
Le, Huirong
WED-2_BUD_3.10-07
Kostagiannakopoulou, Christina
MON-3_BRI_2.07-12, MON-3_BRI_2.07-10
Kulakov, Vladimir
PO-2-54
Lebarillier, Y.
PO-2-39
Kostka, Pawel
THUR-2_BRI_2.13-03
Kumar, Vipin
Lebaupin, Yann
PO-2-19
Kostopoulos, Vassilis
MON-3_BRI_2.07-12, MON-3_BRI_2.07-10,
WED-4_ING_6.02-05, WED-4_ING_6.0206, PO-3-33
MON-3_BRU_2.02-10,
TUE-1_BOR_5.14-03
Kunze, Arne
WED-2_VEN_3.18-13
Lecce, Leonardo
PO_1-03
Kunzmann, Christina
THUR-1_NAP_2.01-09
Ledford, Noah
TUE-2_BIA_3.11-24
MON-1_BOR_5.08-01, TUE-4_STG_5.0302
Kupfer, Robert
MON-2_ING_6.01-04
Lee, Geunsung
WED-4_NAP_2.01-07
Kotrotsos, Athanasios
Lee, Ha Eun
Kotsikos, George
MON-1_STG_5.09-02,
THUR-2_LON_5.05-06
MON-2_BRU_2.02-06
WED-4_ING_6.02-05
Kupke, Michael
MON-4_STG_5.09-13
WED-1_BRU_2.12-01, WED-3_BRU_2.1211, THUR-2_STO_3.20-20
Lee, Hanchul
Kurashiki, Tetsusei
TUE-2_BOR_5.14-04, TUE-3_STG_5.0926, PO-5-12, PO-5-18
Lee, Heow Pueh
WED-1_BRI_2.04-11
Lee, In-Bog
PO-4-1
Kothmann, Martin H.
95
Autor
96
ID
Lindner, Jasmin
THUR-2_BOR_5.10-08
Luft, Jan
TUE-1_VEN_3.06-20
Mareau, Charles
WED-2_BIA_3.08-04
Lingren, Mari
MON-3_AUG_4.04-03
Luinge, Hans
TUE-2_ATH_1.01-20
Margraf, Andreas
WED-1_BOR_5.12-10
Link, Tobias
MON-3_STO_3.21-09
Lukaszewicz, Dirk
MON-4_BIA_3.11-14, TUE-4_ATH_1.02-04
Marguerès, Philippe
WED-1_STG_5.03-07
Linke, Markus
MON-1_RHO_3.23-03
Lüking, Alexander
PO_1-09, PO_1-11, PO-2-41
Marguet, Steven
TUE-1_BIA_3.11-18
Linsmeier, Christian
TUE-2_BRU_2.09-05
Lummerstorfer, Thomas
WED-2_BIA_3.08-07
Marin, Carlos
TUE-4_STO_3.02-19
Lee, James
MON-3_LON_5.06-01
Lee, Jinyong
WED-4_NAP_2.01-07
Lee, Koon-Yang
TUE-3_BRI_2.04-03, TUE-3_BRI_2.04-04,
WED-3_BRI_2.04-19
Lee, Ming-Wei
PO-2-33
Lionetto, Francesca
MON-4_STG_5.09-15, TUE-2_STG_5.09-24
Luterbacher, Rafael
WED-4_ING_6.02-06
Marinucci, Gerson
PO-2-01
Lee, Min-sik
TUE-4_VEN_3.18-07
Liotier, Pierre-Jacques
TUE-4_LON_5.01-01, PO-2-25
Lutz, Vincent
PO-5-24
Marischler, Michael
TUE-3_BOR_5.12-02
Lee, Won Jun
WED-4_NAP_2.01-06
Lipcan, Maximilian
MON-4_BOR_5.02-06
Lykov, Pavel
PO-2-43
Markaide, Nerea
WED-1_ING_7.02-16
Lee, Wonoh
PO-2-09
Lista, G. F.
THUR-2_STG_1.05-13
Lyu, Xiuqi
TUE-4_BIA_3.09-01
Markenstein, Joris
TUE-2_ATH_1.01-20
Leeke, Gary
WED-2_ING_7.01-04
Liu, Fang
MON-4_ING_6.03-01
Lyutakov, Oleksiy
PO-6-01
Marotzke, Christian
TUE-4_MUC_3.01-30
Leger, Romain
THUR-1_MUC_3.13-01, THUR1_MUC_3.13-03
Liu, Haibao
TUE-4_STO_3.02-03
Ma, Chen-Chi
MON-2_BRI_2.07-08
Marquette, Pierre
Liu, Luqi
WED-2_NAP_2.03-11
Ma, Li
TUE-3_BRU_2.14-01, WED-4_VEN_3.17-05
TUE-4_LON_5.01-04,
WED-1_LON_5.01-07
Legras, Angelica
THUR-2_NAP_2.01-10
Liu, Ming
MON-3_BRI_2.07-09
Maalawi, Karam
PO_1-01
Martakos, Georgios
THUR-2_VEN_3.17-12
Lehuu, Thang
MON-3_NAP_2.06-11
Liu, Qian
PO-2-44
Maaroufi, Mohamed-Ali
WED-1_BRU_2.12-03
Martin, Anaud
WED-1_NAP_2.03-06
Leisis, Vitalis
PO-3-02
Liu, Wei
Maaß, Johann
WED-1_VEN_3.18-10
Martín, Isabel
MON-3_LON_5.06-03, PO-5-13
Leistner, P.
WED-2_ING_7.01-02
THUR-1_BOR_5.10-01,
THUR-1_BOR_5.10-02
TUE-3_BIA_3.12-04
WED-1_ING_7.02-16
Lemascon, Alain
MON-1_STG_5.09-01
Liu, Xin
Mace, Brian
Martín, Roberto
TUE-1_MUC_3.01-18
TUE-2_LON_5.06-13
Martineau, Lilian
MON-3_BRU_2.02-12
Lemmens, Benjamin
WED-2_BRI_2.04-15
Liu, Xu
Mack, Jens
MON-1_BRI_2.07-03, MON-2_BRI_2.07-04
WED-2_RHO_3.16-01
Martínez, Félix
Lenz, Florian
PO-5-21
Liu, Xueshu
Macquart, Terence
PO-3-54
WED-2_STO_3.20-06,
THUR-1_STO_3.20-17
THUR-2_BUD_3.10-22
MON-2_SEV_3.07-07, MON-4_MUC_3.0115
Liu, Yang
Madenci, Erdogan
Leopold, Christian
TUE-4_BUD_3.05-15
Martone, Alfonso
THUR-1_ING_6.02-09, PO-6-07, PO-6-09
WED-2_BRI_2.04-16
Liu, Yuefeng
Madsen, Bo
MON-2_BRI_2.07-04
Martorana, Brunetto
WED-2_STO_3.20-04
Leplat, Gillian
WED-2_BRU_2.12-04
Maenz, Stefan
TUE-1_VEN_3.06-19
Llorca, Javier
Masania, Kunal
Leroch, Sandrine
MON-4_SEV_3.03-03
MON-1_BOR_5.08-02,
TUE-3_STO_3.14-06
Maffezzoli, Alfonso
TUE-3_BIA_3.12-03, TUE-4_BRI_2.04-05,
WED-1_LON_5.01-08,
WED-2_BRI_2.04-14
Lessard, Larry
THUR-2_STO_3.20-21,
THUR-2_STO_3.20-22
Lloret Pertegás, Silvia
MON-4_STG_5.09-15, THUR-1_BIA_3.1902, TUE-2_STG_5.09-24
PO-2-20
Magalhães da Silva, Sara
PO-2-11
Maslouhi, Ahmed
THUR-2_BIA_3.19-06
Löbel, Thomas
TUE-2_AUG_4.01-09
Lester, Catherine L.
WED-2_BRI_2.04-16
THUR-2_AUG_8.01-02
Massé, N.
WED-2_AUG_4.03-08
Lodeiro, Maria
Magallon, Ignacio
TUE-3_ATH_1.04-01
Lewandowska, Anna E.
TUE-1_NAP_2.06-20
WED-2_BUD_3.10-06
Masselter, Tom
WED-3_ING_6.02-04
Lohr, Christoph
Magi, Fabrizio
MON-2_STG_5.09-05, PO-5-30
L‘Hostis, Gildas
MON-3_ING_6.01-09, MON-3_NAP_2.0611
THUR-1_STO_3.20-16
Masson, Patrice
THUR-2_BIA_3.19-06
Lomov, Stepan
Magin, Michael
Mahmood, Haroon
MON-3_BIA_3.11-11
PO-3-54
WED-2_NAP_2.03-08,
WED-4_LON_5.13-04
Mata, Alberto
Li, Rupeng
Mateos, Modesto
Li, Shin-Ming
MON-2_BRI_2.07-08
MON-2_LON_5.07-01, TUE-2_BRI_2.0805, WED-2_LON_5.01-11, PO-5-17
Li, Shuguang
WED-2_MUC_3.02-07, WED-4_MUC_3.0216, THUR-2_BIA_3.19-04
MON-1_VEN_3.06-02, MON4_VEN_3.06-15, TUE-1_VEN_3.06-18,
TUE-2_AUG_4.01-11, TUE-2_BUD_3.05-07,
TUE-4_BUD_3.05-15, TUE-4_MUC_3.0129, WED-1_RHO_3.05-20, THUR-2_
BUD_3.10-21, PO-5-11
Li, Yan
WED-2_MUC_3.02-08
Li, Yazhi
WED-2_MUC_3.02-08
Li, Yi-Luen
PO-2-38
Li, Yizhuo
TUE-4_BIA_3.09-05
Li, Yongjing
PO-5-28
Li, Yujun
TUE-2_MUC_3.01-21
Li, Zaoyang
PO-3-41
Liang, Heng
WED-1_RHO_3.05-19
Liang, Yen Nan
MON-3_BRI_2.07-09
Liao, Guangyue
MON-4_ING_6.03-02
Liao, Wei-Hao
MON-2_BRI_2.07-08
Libanori, Rafael
Mahmoud, Bassam
TUE-1_BIA_3.11-18, PO-3-10
Mahran, Mohamed
PO_1-01
Mathieu, S.
MON-2_VEN_3.06-05
MON-4_VEN_3.06-13,
TUE-4_STG_5.03-05
Mahrholz, Thorsten
MON-4_ING_6.03-02,
MON-4_LON_5.06-07
Matsuda, Nakoki
MON-1_BUD_3.04-03
Matsuo, Tsuyoshi
TUE-4_BIA_3.09-04
TUE-2_BRI_2.08-04, WED-1_ING_7.02-18,
WED-2_SEV_3.22-08
Mahy, Ben
PO-2-50
Matsutani, Hiroaki
TUE-4_AUG_4.05-09
Maidl, Franz
MON-2_BOR_5.08-04
MON-2_MUC_3.01-06, MON-3_VEN_3.0611, MON-4_MUC_3.01-14, TUE-3_
STO_3.14-06
Matsuzaki, Ryosuke
PO-2-12, PO-2-35
Maier, G.
TUE-1_BRU_2.10-01
Matsuzawa, Shuhei
TUE-2_BOR_5.14-04
Maier, Julia
THUR-2_BUD_3.10-23
Matveenko, Valery
PO-3-14
López Alba, Elías
THUR-1_STO_3.20-16, PO_1-05, PO_1-06
Maierhofer, Johannes
MON-2_BOR_5.08-07
Matveev, Mikhail
TUE-4_STG_5.03-05
López, Bernardo
THUR-2_RHO_3.16-09
Maillet, Irène
WED-4_BUD_3.10-13
Matveeva, Anna
TUE-2_AUG_4.01-11
López, M. Dolores
PO-2-40
Maimí, Pere
Maurer, Thomas
Lopez-Anido, Roberto
WED-2_STO_3.20-05
MON-1_SEV_3.07-02, MON-4_BIA_3.1116, TUE-2_SEV_3.03-09
MON-2_BOR_5.08-04,
MON-3_STO_3.21-07
López-Puente, Jorge
MON-3_BIA_3.11-11, TUE-1_BIA_3.11-19,
TUE-2_BIA_3.11-21
Maire, Eric
MON-2_AUG_4.02-08
Mautner, Andreas
TUE-3_BRI_2.04-04
Majic, Neven
THUR-2_LON_5.05-04
Mavrogordato, Mark
TUE-2_MUC_3.01-22
Long, Andrew
Longana, Marco Luigi
Lopes, Claudio
Lorrillard, Julien
MON-2_BOR_5.08-06
Malczyk, Piotr
TUE-2_BRU_2.09-01
WED-3_ING_6.02-01, WED-3_ING_6.0202
Maxwell, Jay
TUE-3_NAP_2.06-29
Lortie, Frédéric
MON-1_BRU_2.02-03,
MON-4_BRU_2.02-15
Malecha, Marcin
MON-1_LON_5.11-01
May, Michael
Liebig, Wilfried
MON-2_SEV_3.07-07, MON-4_MUC_3.0115
Malpot, Amélie
TUE-1_BRU_2.10-02
Lou, Xiaofei
TUE-3_MUC_3.01-25
Manaila, Elena
PO-2-08
MON-1_BIA_3.11-03,
MON-4_STO_3.15-03, TUE-2_BIA_3.11-24,
PO-3-08, PO-3-18
Liggat, John
TUE-1_ING_7.02-01
Loukil, Mohamed
MON-4_AUG_4.01-04,
WED-3_MUC_3.02-14
Mandel, Ulrich
WED-3_SEV_3.22-11
Mayer, Natalie
WED-2_RHO_3.16-05
Lilholt, Hans
WED-2_BRI_2.04-16
Manikas, Anastasios
WED-1_NAP_2.03-05
Mazarro, Alberto
PO-5-07
Lima, Paulo Silva
PO-2-11
Mantic, Vladislav
MON-4_MUC_3.01-16
Mazars, Vincent
MON-1_AUG_4.02-01
Mbacke, Mamadou
PO-3-30
McGarrigle, Cormac
MON-4_BUD_3.04-13
McHale, Ronan
MON-1_NAP_2.06-02
McIlhagger, Alistair
MON-4_BUD_3.04-13
Loutas, Theodoros
WED-3_BUD_3.10-11,
WED-4_ING_6.02-05
Limmack, Andrew
MON-1_NAP_2.06-02
Lowe, Adrian
Lin, Sheng-Chi
MON-2_BRI_2.07-08
Lowe, Tristan
Lindbäck, Jan Erik
MON-1_LON_5.11-03
MON-1_AUG_4.02-03,
MON-2_AUG_4.02-08
Lindbergh, Göran
MON-4_ING_6.03-03
Lu, Zixing
MON-3_BRI_2.07-11, PO-2-13
Linde, Peter
TUE-1_STG_5.09-19
Lubineau, Gilles
MON-3_MUC_3.01-11, THUR-2_BRI_2.1305, TUE-2_MUC_3.01-20
Lindenberger, Benjamin
WED-3_STO_3.20-09
Lindgaard, Esben
WED-4_BUD_3.10-14
Luecke, Jens
PO-3-51
Mao, Yiran
TUE-2_BRU_2.09-05
Maples, Henry
MON-2_ING_6.01-02, MON-2_ING_6.0105, MON-3_ING_6.01-07, WED-2_
ATH_1.02-10
TUE-4_LON_5.01-03
Maragoni, Lucio
WED-3_BUD_3.10-12
McKenzie, Ruel
WED-3_LON_5.13-01
Marchand, Damien
WED-1_BRU_2.12-02
Mecklenburg, M.
MON-4_BRI_2.07-15
Marchetti, Martino
TUE-2_ATH_1.01-20
Autor
ID
Medina, Luisa
MON-1_STG_5.09-03,
WED-3_BRI_2.04-17, PO-2-21
Meeuw, Hauke
TUE-3_VEN_3.18-02
Mehdikhani, Mahoor
TUE-2_AUG_4.01-11, PO-5-11
Meier, Christoph
THUR-1_BRU_2.11-01,
THUR-1_BRU_2.11-02
Meier, Oliver
THUR-2_BOR_5.10-08
Meier, Urs
WED-3_BOR_1.05-03,
WED-4_BOR_1.05-07
Meiners, Dieter
MON-2_BRU_2.02-05
Meinhardt, Thomas
MON-4_BRU_2.02-16
Meis, Lukas
MON-2_ATH_1.01-08
Middendorf, Peter
MON-2_LON_5.07-05, MON-2_STO_3.2104, MON-2_VEN_3.06-06, MON-3_
ATH_1.01-11, TUE-1_LON_5.06-12, TUE4_LON_5.01-05, TUE-4_SEV_3.03-20,
WED-2_AUG_4.03-04, WED-2_RHO_3.1602, WED-2_RHO_3.16-03, WED-4_
STG_5.04-06, THUR-1_LON_5.05-02,
WED-1_STO_3.20-02, THUR-1_VEN_3.1709, PO-5-01
Mordasini, Alexandre
MON-2_STO_3.21-03
Narducci, Federico
TUE-3_STO_3.14-07
Morillas, Maria Nicolas
MON-4_STG_5.09-15
Nash, David
TUE-4_BRU_2.14-06
Morioka, Karen
MON-1_BRU_2.02-02
Nasri, Nassima
MON-2_BUD_3.04-06
Morisawa, Yoko
PO-3-37
Nassiet, Valérie
MON-4_AUG_4.01-02
Morris, Andy
PO-3-47
Navabizadeh, Sima
MON-2_NAP_2.06-08
Mortensen, Ulrich A.
WED-2_BRI_2.04-16
Navarro, Pablo
TUE-1_BIA_3.11-18
Miene, Andrea
TUE-3_AUG_4.05-02
Mosch, Jürgen
TUE-1_ATH_1.01-17
Nawab, Yasir
TUE-4_STG_5.03-01
Mierzwa, Andreas
WED-3_STG_5.04-04
Mösenbacher, Andreas
WED-2_BUD_3.10-08
Naya, Fernando
MON-2_MUC_3.01-06
Mikkelsen, Lars P.
MON-1_AUG_4.02-03
Mosleh, Yasmine
TUE-3_BRU_2.14-03
Nayebi, Ali
PO-3-43
Milani, Abbas
PO-3-19
Mosthaf, Tobias
WED-2_LON_5.01-09
Nechifor, Marioara
PO-2-24
Miller, Mark
WED-1_ATH_1.02-06, PO_1-08
Mota, Carlos
THUR-1_STG_1.05-09
Nedjar, Boumedienne
PO-3-48
Millon, Oliver
MON-3_BIA_3.11-09
Motavalli, Masoud
WED-3_BOR_1.05-03
Negm, Hani
PO_1-01
Mills, Richard
MON-2_ATH_1.01-04
Motsch, Nicole
THUR-1_STO_3.20-16, PO-3-53
Neid, Tobias
WED-1_NAP_2.03-07
Minak, Giangiacomo
MON-1_NAP_2.06-01, PO-5-25
Moulin, Nicolas
TUE-4_LON_5.01-01
Neitzel, Tim
MON-2_ATH_1.01-08
Minakuchi, Shu
MON-1_ATH_1.01-01, TUE-3_BOR_5.1204, WED-1_STO_3.20-03
Mounkaila, M.
WED-1_STG_5.03-07
Nelke, Harald
THUR-2_VEN_3.17-15
Movahedi-Rad, Abdolvahid
WED-1_BUD_3.10-02
Nellesen, Anke
WED-4_ING_6.02-07
Minsch, Niklas
WED-2_ATH_1.02-11
Moya-Sanz, Elena M.
PO-3-57, PO_3-65
Nepal, Dhriti
TUE-2_BUD_3.05-06
Minty, Ross Forbes
WED-2_NAP_2.03-09
Mu, Chen-zhong
MON-3_BRI_2.07-09
Néron, David
WED-2_MUC_3.02-09
Mistry, Harshad
MON-2_BOR_5.08-06
Mudra, Christian
WED-3_VEN_3.17-03
Neu, Rudolf
TUE-2_BRU_2.09-05
Mitra, Nilanjan
PO-3-45
Muehlbacher, Mathias
TUE-3_STG_5.09-25, TUE-3_STG_5.09-27
Neumann, D.
THUR-1_LON_5.05-03
Mitschang, Peter
MON-1_STG_5.09-03, MON2_STG_5.09-06, MON-2_STO_3.21-02,
TUE-1_STG_5.09-17, TUE-2_LON_5.06-13,
WED-3_BRI_2.04-17, WED-4_STG_5.0407, PO-2-21
Mueller, W.M.
TUE-4_ING_7.02-14, TUE-4_NAP_2.03-04
Neumann, Ulf Henning
WED-4_STG_5.04-07
Mueller, Yves
MON-4_STO_3.15-04
Neumeyer, Thomas
TUE-3_STG_5.09-25
Múgica, Joseba Iñaki
TUE-2_BRI_2.08-05
Newley, Richard
TUE-4_BUD_3.05-14
Meissen, Frank
WED-2_VEN_3.18-15
Meister, Heinz
TUE-1_ATH_1.01-17
Melinte, Violeta
PO-2-24
Mellier, D.
MON-3_VEN_3.06-09
Mellier, David
WED-2_BRI_2.04-13, PO-3-49
Melro, António
TUE-1_VEN_3.06-18, TUE-2_BRI_2.08-03
Meng, Linshu
PO-3-55
Meng, Maozhou
WED-2_BUD_3.10-07
Menner, Angelika
MON-3_ING_6.01-08,
TUE-4_BRU_2.14-08
Mennle, Edgar
MON-4_ATH_1.01-16
Menrath, Andreas
PO-5-30
Mitsufuji, Kenta
TUE-2_BOR_5.14-04
Mühlstädt, Mike
TUE-1_VEN_3.06-19, PO-2-10
Nguyen, Chinh
PO-5-15
Mera, L.
WED-4_ATH_1.03-01
Mittmann, Stefan
WED-1_BOR_5.12-11
Muhs, Fabian
THUR-1_VEN_3.17-09
Nguyen, Hoang
WED-3_BOR_1.05-04
Meraghni, Fodil
TUE-1_MUC_3.01-19, TUE-3_BUD_3.0510, WED-2_BIA_3.08-08, WED-3_
AUG_4.03-09, PO-3-24
Miyano, Yasushi
THUR-2_MUC_3.13-05, PO-3-36, PO-3-37
Mujika, Faustino
TUE-2_SEV_3.03-13
Nguyen, Nghi
MON-4_VEN_3.06-15, PO-5-11
Miyasaka, Fumikazu
TUE-2_BOR_5.14-04
Mukoyama, Kazutaka
TUE-2_BOR_5.14-04
Niebel, Tobias P.
WED-3_ING_6.02-01
Mercadé, Camille
WED-3_BRU_2.12-10
Miyauchi, Masahiko
PO-2-48
Müller de Almeida, Sérgio Frascino
MON-1_SEV_3.07-03
Niedermeier, Michael
MON-4_STO_3.15-04
Mercurio, Umberto
MON-2_RHO_3.23-05, PO_1-03
Mizubayashi, Mai
WED-3_BIA_3.08-10
Müller, Alexander
THUR-1_BUD_3.10-18
Niedernhuber, M.
TUE-1_ATH_1.01-19
Merotte, Justin
WED-1_BRI_2.04-12
Mizumoto, Kazuya
WED-3_BIA_3.08-10
Müller, Anke
MON-4_STG_5.09-16
Nijssen, Rogier
MON-2_AUG_4.02-04
Mizutani, Yoshihiro
THUR-2_BRI_2.13-04
Müller, Michael
Nikawa, Hidefumi
MON-2_NAP_2.06-06
Mertiny, Pierre
MON-2_BOR_5.08-07
Modler, Niels
MON-4_BRU_2.02-13,
THUR-2_AUG_8.01-03
TUE-1_AUG_4.01-07, THUR-2_MUC_3.1304, THUR-2_MUC_3.13-07
Mertel, Achim
Müller, Sebastian
TUE-4_SEV_3.03-22
Nikhamkin, Mikhail
MON-4_BIA_3.11-13
Mertz, Grégory
WED-1_NAP_2.03-06
MON-2_ING_6.01-04, WED-1_ATH_1.0207, WED-1_VEN_3.18-11, THUR-2_
BRI_2.13-03, PO-5-21
Müller, Tobias
MON-4_ING_6.03-04
Nique, Somchith
PO_1-12
Mesa, María José
WED-3_LON_5.13-03
Moeginger, Bernhard
WED-1_BIA_3.08-03
Multhoff, Jörg
WED-4_MUC_3.02-18
Nishi, Masato
TUE-4_LON_5.01-02
Meschut, Gerson
WED-2_VEN_3.18-15
Mohamed, Galal
MON-1_BUD_3.04-02
Munoz, Raul
WED-2_SEV_3.22-07
Nishi, Takayuki
THUR-2_BRI_2.13-04
Mesogitis, Tassos
MON-4_BOR_5.02-07
Mohammadi, Mohsen
Murakami, Takashi
TUE-4_BIA_3.09-04
Nishikawa, Masaaki
MON-1_BUD_3.04-03
Metzner, Christian
WED-3_STG_5.04-01, WED-4_STG_5.0406, THUR-1_BRU_2.11-02
MON-2_NAP_2.06-05, MON-2_MUC_3.0108, WED-1_RHO_3.05-18
Nishiyabu, Kazuaki
TUE-3_STG_5.09-26, PO-5-12, PO-5-18
MON-4_BOR_5.02-08
MON-4_BRI_2.07-14, MON-4_STO_3.1501, WED-3_ATH_1.02-14
WED-2_BRU_2.12-05
Meyer, Florian
Mohd Halit, Muhammad Khairulanwar
Murakami, Tetsuhiko
Müssig, Jörg
Nitta, Yuji
WED-3_NAP_2.01-03
Meyer, J. C
TUE-1_ATH_1.01-19
Mohrmann, Richard
TUE-2_BIA_3.11-24
TUE-4_BRI_2.04-09, TUE-4_NAP_2.0302, WED-1_BRI_2.04-10
Niu, Bin
TUE-3_LON_5.06-18, PO-5-09
Molina Viedma, Ángel
PO_1-05, PO_1-06
TUE-3_BIA_3.12-02, THUR-1_BOR_5.1001, THUR-1_BOR_5.10-02
Meyer, Matthias
Mezlini, Salah
THUR-2_BOR_5.10-07
Molinari, G.
THUR-1_BIA_3.19-01
Mezzacasa, Riccardo
TUE-1_LON_5.06-12
Molker, Henrik
TUE-2_SEV_3.03-12
Miaris, Angelos
MON-2_ATH_1.01-08
Mollenhauer, David
Michaelis, Alexander
TUE-2_BRU_2.09-01
MON-1_ATH_1.01-02, MON-3_MUC_3.0110, MON-4_SEV_3.03-05
Michaelis, Daniel
MON-2_VEN_3.06-06,
WED-2_RHO_3.16-03
Moller, James
Muthukaruppan, Arunachalam
PO-6-08
Nagano, Tomoya
PO-2-14
Niu, Tianxiao
TUE-1_MUC_3.01-17
Nagata, Kanzuya
MON-4_NAP_2.06-13
Nixon-Pearson, Oliver
MON-4_BOR_5.02-07
Nagatsuka, Wataru
TUE-4_BIA_3.09-04
Noda, Junji
PO-2-26
Nagel, Ulf
TUE-4_ING_7.02-13
Nolte, Franziska
PO-3-08
TUE-2_BUD_3.05-06
Nahiene, Hamila
MON-3_VEN_3.06-12
Nonn, Andreas
Monden, Andreas
WED-2_VEN_3.18-17
Naito, Kimiyoshi
THUR-1_STG_1.05-08, PO-3-58
MON-2_BOR_5.08-04,
MON-3_STO_3.21-07
Nosek, Tomáš
PO-5-01
Nosrat Nezami, Farbod
WED-2_ATH_1.02-11,
THUR-1_LON_5.05-01
Michaud, Véronique
WED-1_STG_5.03-06,
THUR-1_ING_6.02-08
Montagna, Francesco
TUE-2_STG_5.09-24
Naito, Tadashi
WED-1_RHO_3.05-20
Montesano, Giuseppe
PO-4-5
Nakada, Masayuki
THUR-2_MUC_3.13-05, PO-3-36, PO-3-37
Michel, Laurent
WED-4_BUD_3.10-13
Moon, Robert
WED-1_ATH_1.02-06, PO_1-08
Nakai, Asami
TUE-2_STG_5.09-21
Nossek, Matthias
PO-3-18
Michl, Felix
THUR-2_LON_5.05-04
Moosburger-Will, Judith
TUE-4_NAP_2.03-04, WED-1_NAP_2.0307, WED-3_NAP_2.01-04, THUR-1_
NAP_2.01-09
Nakamura, Taro
MON-4_STG_5.09-13
Novello, Elisa
Nakano, Ryo
WED-2_LON_5.01-12
MON-3_BUD_3.04-09,
THUR-1_BUD_3.10-17
Nakashima, Yuto
MON-2_SEV_3.07-05
Nowak, Marek
Nakatani, Hayato
TUE-1_SEV_3.03-08
MON-2_MUC_3.01-07,
WED-1_AUG_4.03-01
Narayana swamy, Jagadeesh
TUE-1_AUG_4.01-07
Nowotny, Sebastian
MON-4_ATH_1.01-16
Narayanaswamy, Sridhar
MON-3_BIA_3.11-12, WED-4_ATH_1.03-02
Nunes, João P.
MON-4_VEN_3.06-14,
THUR-1_STG_1.05-09
Moosreiner, Leonhard
MON-4_ING_6.03-04
Moothoo, Julien
TUE-3_ING_7.02-11
Morales Cruz, Cynthia
PO_1-11
97
Autor
98
ID
Overmeyer, L.
TUE-1_STG_5.09-19,
THUR-2_BOR_5.10-08
Peng, Hua-Xin
MON-1_NAP_2.06-02
Pope, Ellen
PO-2-57
Pepe, Giovanni Piero
MON-3_NAP_2.06-10
Poppinga, Simon
WED-3_ING_6.02-04
Peres, Gilles
MON-2_ATH_1.01-04
Portemont, Gérald
MON-2_BIA_3.11-05, WED-2_BRU_2.12-07
Perez, Camilo
WED-3_BIA_3.08-12
Post, Folke
MON-1_AUG_4.02-02
Pérez, Marta
TUE-2_BOR_5.14-05
Postnikov, Pavel
PO-6-01
Pernas-Sanchez, Jesus
MON-3_BIA_3.11-11, TUE-1_BIA_3.11-19,
TUE-2_BIA_3.11-21
Potluri, Prasad
MON-4_NAP_2.06-15, TUE-2_VEN_3.0625, WED-4_LON_5.13-05
Potter, Kevin
MON-1_LON_5.11-02, MON4_LON_5.06-05, TUE-2_ING_7.02-07,
TUE-2_LON_5.06-14, WED-1_ING_7.02-18,
WED-2_SEV_3.22-08, PO-5-14, PO-5-32
Nuzhnyy, Dmitry
TUE-3_AUG_4.05-01
Oxenbauer, Marco
TUE-4_ATH_1.02-02
O Brien, Cormac
MON-1_RHO_3.23-01
Oya, Yutaka
PO-2-12
O Connor, Gerard
MON-1_RHO_3.23-01
Paggi, Marco
MON-1_BUD_3.04-01
Obande, Winifred
MON-4_VEN_3.06-17
Palardy, Genevieve
WED-2_STO_3.20-07
O‘Carroll, Anthony
TUE-3_ATH_1.04-04
Palazzetti, Roberto
MON-1_NAP_2.06-01
Odriozola, Ibon
WED-1_ING_7.02-16
Palleiro Palmou, Clara
PO-3-59
Pernice, Maria Francesca
TUE-1_STO_3.15-07
Oerley, Hans
TUE-4_BOR_5.12-08
Palola, Sarianna
MON-3_AUG_4.04-03
Peron, Mael
WED-1_STG_5.03-08
Ogasawara, Toshio
MON-4_ATH_1.01-15,
WED-3_BRU_2.12-09, PO-2-48
Pandey, Manoj
PO-6-08
Perraud, Richard
MON-2_ATH_1.01-04
Ogawa, Takayuki
WED-1_LON_5.01-07
Panek, Maciej
WED-1_AUG_4.03-01
Perrier, Amélie
WED-2_BRI_2.04-13
Pottmeyer, Florentin
PO-3-60
Ogihara, Shinji
PO-3-07
Pangboonyanon, Woramon
TUE-2_BOR_5.14-06
Perrin, Didier
Poulet, Pierre-Alexis
PO-3-16
Ogin, Stephen
TUE-1_AUG_4.01-06, TUE-2_VEN_3.06-25
Panier, Stéphane
TUE-4_BUD_3.05-15
TUE-4_ING_7.02-15,
THUR-1_MUC_3.13-02
Pouresmaeeli, Saleh
TUE-3_NAP_2.06-28
TUE-4_STO_3.02-02
THUR-1_STG_1.05-08, PO-3-58
MON-3_VEN_3.06-09
Perry, Nicolas
Oguma, Hiroyuki
Pannier, Yannick
Praetorius, S.
MON-1_AUG_4.02-02
TUE-4_BOR_5.12-06
MON-1_BUD_3.04-03
MON-3_ING_6.01-06
Persiyanov-Dubrov, Mikhail
Ohashi, Kazuki
Panozzo, Francesco
Prambauer, Martina
WED-4_BRI_2.04-22
THUR-1_MUC_3.13-03
PO-3-41
MON-1_BRI_2.07-02, MON-4_BRI_2.07-16
Person, Véronique
Ohori, Toshiro
Papagelis, Konstantinos
Pratap Singh, Bhanu
MON-3_BRU_2.02-10
MON-4_BRI_2.07-13
THUR-1_NAP_2.01-09
MON-4_STG_5.09-13, PO-3-35, PO-3-55
Papageorgiou, Dimitrios
Peter, Tobias
Ohsawa, Isamu
Praud, Francis
TUE-1_MUC_3.01-19
TUE-3_MUC_3.01-26, TUE-4_SEV_3.03-19
TUE-4_AUG_4.05-09, PO-2-12, PO-3-21
MON-4_STG_5.09-15,
THUR-1_BIA_3.19-02
Petiot, Caroline
Okabe, Tomonaga
Pappadà, Silvio
Préau, Mathieu
MON-1_RHO_3.23-02
Petropoulos, Faidonas
WED-1_NAP_2.03-05
Oksman, Kristiina
MON-4_NAP_2.06-16,
WED-3_SEV_3.22-10
Prejmerean, C.
PO-2-24
Okubo, Kazuya
MON-2_VEN_3.06-08,
WED-3_BOR_1.05-04
Pappas, Georgios
TUE-2_MUC_3.01-23
Pettermann, Heinz E.
TUE-1_BUD_3.05-01, TUE-2_BIA_3.11-22
Pretschuh, Claudia
WED-2_BIA_3.08-07
Pappas, Panagiotis Nektarios
WED-1_NAP_2.03-05
Petzelt, Jan
TUE-3_AUG_4.05-01
Priasso, Valentin
TUE-3_MUC_3.01-26
Parambil, Nithin
TUE-3_MUC_3.01-28
Pham, Dinh-Chi
MON-3_BIA_3.11-12, WED-4_ATH_1.03-02
Priem, Cyril
MON-2_STO_3.21-01
Okuda, Haruki
TUE-4_AUG_4.05-09
Pardoen, Thomas
WED-1_MUC_3.02-06
Phan, Nam
THUR-2_BUD_3.10-22
Primetzhofer, Andreas
WED-2_BUD_3.10-08
Okuda, Shinichi
MON-4_NAP_2.06-13
París, Federico
Piao, Hao
PO-3-35
Prono, David
PO-5-02
Okumura, Takumi
PO-2-14
Picard, Martin
WED-1_AUG_4.03-02
Prowe, Jens
WED-2_RHO_3.16-05
Oliet, Mercedes
PO-2-55
Pichler, Stefan
TUE-4_BRI_2.04-06
Prusty, B.Gangadhara
MON-4_LON_5.06-06
Oliveira, José Martinho
PO-2-11
MON-2_MUC_3.01-04,
MON-3_BOR_5.02-04, MON-4_MUC_3.0116, TUE-4_STO_3.02-19, WED-3_
LON_5.13-03, THUR-1_BIA_3.19-03,
THUR-2_RHO_3.16-09
Pickard, Laura Rhian
TUE-4_BOR_5.12-07
Psarras, Spyridon
TUE-2_BIA_3.11-25
Oliveux, Geraldine
WED-2_ING_7.01-04
Pickett, Anthony K.
WED-1_STO_3.20-02
Pucci, Monica Francesca
PO-2-25
Olivier, Philippe
WED-1_STG_5.03-07
Pico, Davide
PO_1-09, PO_1-11, PO-2-41
Puentes, John
TUE-3_AUG_4.05-03
Oliviero, Maria
PO-2-49
Parmentier, Antoine
MON-3_BOR_5.02-03
Picot, Olivier T.
TUE-1_NAP_2.06-19
Pugno, Nicola
TUE-1_NAP_2.06-19, TUE-4_BUD_3.05-17
Olsen, Torbjørn
PO-2-36
Paroissien, Simon
PO-3-50
Pimenta, Soraia
Pulungan, Ditho
TUE-2_MUC_3.01-20
Olsson, Robin
MON-3_SEV_3.07-10, TUE-4_STO_3.02-01
Parthenios, John
MON-1_BRI_2.07-02, MON-4_BRI_2.07-16
Pupurs, Andrejs
MON-4_ING_6.03-03
On, Seungyoon
WED-3_STO_3.20-11
Partridge, Ivana
Pursche, Franz
Onodera, Miho
PO-2-14
MON-1_BUD_3.04-02, TUE-4_BOR_5.1207, WED-3_VEN_3.17-02, PO-3-09
MON-1_MUC_3.01-03, TUE2_BRI_2.08-04, TUE-2_NAP_2.06-23,
TUE-2_STO_3.14-04, TUE-2_STO_3.14-05,
TUE-3_STO_3.14-08, TUE-4_BIA_3.09-05,
TUE-4_MUC_3.01-31, PO-3-47
WED-3_NAP_2.01-01,
WED-4_NAP_2.01-05, PO-2-04
Parveen, Bushra
WED-1_BIA_3.08-02
Pina, Luis
WED-1_BOR_5.12-09
PO-3-17
Pasbakhsh, Pooria
PO-6-05
Pineda, Evan
Pyttel, Thomas
MON-1_MUC_3.01-01
WED-4_VEN_3.17-05
Pastor, Marie Laetitia
MON-4_AUG_4.01-02
Pingyu, Zhu
Qi, Ge
PO-5-28
PO-3-39
Pastore Carbone, Maria Giovanna
MON-4_BRI_2.07-16
Pinho, Silvestre
Qian, Hui
Qian, Xudong
WED-4_ATH_1.03-02
Pastore, Antonello
PO-6-09
Qu, Muchao
PO-2-05
Patamaprohm, Baramee
TUE-3_SEV_3.03-16
Quan, E.
TUE-1_BRU_2.10-01
Patel, Kinjalkumar
MON-4_NAP_2.06-15
MON-1_MUC_3.01-03, TUE1_BUD_3.05-03, TUE-2_SEV_3.03-12,
TUE-2_STO_3.14-02, TUE-2_VEN_3.06-22,
TUE-3_MUC_3.01-27, TUE-3_SEV_3.03-15,
TUE-3_STO_3.14-07, TUE-3_STO_3.14-08,
TUE-4_MUC_3.01-31
Quaresimin, Marino
Patou, Julien
MON-4_VEN_3.06-16
Patra, Alak Kumar
MON-3_BUD_3.04-09, MON-3_ING_6.0106, TUE-2_MUC_3.01-24, WED-3_
BUD_3.10-12, THUR-1_BUD_3.10-17
PO-3-45
Paul, Christian
WED-1_VEN_3.18-11, WED-2_VEN_3.18-15
Paul, Hanna
TUE-2_BIA_3.11-24
Paulik, Christian
WED-4_BRI_2.04-22
Paulmier, Pascal
TUE-1_SEV_3.03-06
Paul-Victor, C.
THUR-1_ING_6.02-10
Pautard, Sébastien
WED-3_BIA_3.08-11
Pecenko, Alessandro
MON-1_BRU_2.02-01
Orgéas, Laurent
TUE-2_BOR_5.14-07
Orito, Masatoshi
PO-2-14
Oromiehie, Ebrahim
MON-4_LON_5.06-06
Ortega Novillo, Adrián
TUE-2_SEV_3.03-09
Osaka, Katsuhiko
TUE-1_SEV_3.03-08
Osawa, Naoki
PO-2-14
Osawa, Satoshi
PO-2-14
Osmiani, Camilla
MON-1_BUD_3.04-02
Osokin, Vladimir
PO-4-2
Osswald, Tim
TUE-3_AUG_4.05-03, WED-3_BIA_3.08-12
Oswald, Arnold
TUE-2_STG_5.09-21, WED-4_BRI_2.04-23
Otero Ramudo, Nerea
PO-3-59
Otero, Enrique
PO-2-40
Othman, Ramzi
WED-2_STO_3.20-08
Otto, Victoria
THUR-2_BUD_3.10-20
Park, H. S.
PO-3-26
Parlevliet, Patricia
THUR-1_BRU_2.11-01, THUR-1_BRU_2.1102, THUR-2_VEN_3.17-11
Pinter, Gerald
WED-2_BUD_3.10-04, WED-2_BUD_3.1008, THUR-2_BUD_3.10-23, PO-3-62
Pinter, Pascal
TUE-3_BUD_3.05-11, PO-4-4, PO-5-29
Quiles-Díaz, Susana
MON-2_BRI_2.07-06
Pironi, Paolo
WED-2_BRU_2.12-06
Rackles, Jürgen
MON-4_ING_6.03-04
Pirozzi, Pasquale Antonio
WED-1_BRU_2.12-02
Racle, Elie
TUE-2_BRU_2.09-03
Pisarev, Pavel
PO-4-2
Radlmaier, Veronika
MON-3_STG_5.09-10
Pisupati, A.
MON-3_NAP_2.06-12
Ragonet, Matthieu
WED-2_BRU_2.12-07
Placet, Vincent
THUR-1_MUC_3.13-03
Ragueh, R. R.
PO-2-39
Plank, Bernhard
MON-2_AUG_4.02-06,
MON-2_AUG_4.02-07
Rahammer, Markus
TUE-2_AUG_4.01-10,
WED-2_AUG_4.03-04
Ouagne, Pierre
TUE-3_ING_7.02-11,
WED-3_STG_5.04-03, PO-5-23
Pedaci, Immacolata
MON-3_NAP_2.06-10
Poggel, Benedikt
WED-1_VEN_3.18-11
Rahier, Hubert
TUE-3_NAP_2.06-26
Oulanti, Hanae
MON-3_NAP_2.06-11
Peeters, Daniël
THUR-1_RHO_3.16-07
Pohl, Martin
MON-2_ING_6.01-04, TUE-3_VEN_3.18-03
Rahiminejad, Davood
PO-3-51
Ovalı, Didem
MON-1_NAP_2.06-03
Pegoretti, Alessandro
Pollard, David
WED-4_LON_5.13-06
Rahman, Md Zillur
TUE-3_BIA_3.12-04
Öveçoğlu, M.Lütfi
MON-1_NAP_2.06-03
TUE-1_NAP_2.06-18, TUE-3_BRU_2.14-02,
WED-2_NAP_2.03-08,
WED-4_LON_5.13-04
Polyzos, Ioannis
MON-4_BRI_2.07-16
Rähtz, Christian
Overgaard, Lars Christian Terndrup
WED-2_BUD_3.10-05
TUE-1_NAP_2.06-19
Pomarede, Pascal
WED-3_AUG_4.03-09
MON-1_LON_5.11-01,
THUR-2_LON_5.05-06
Peijs, Ton
Pender, Kyle
Poole, Matthew
TUE-2_VEN_3.06-25
Raijmaekers, Sibrand
TUE-2_ING_7.02-04
THUR-2_MUC_3.13-04,
THUR-2_MUC_3.13-07
Autor
ID
Rajan, Ginu
MON-4_LON_5.06-06
Rakotoarisoa, Carole
TUE-2_BRU_2.09-03
Reynaud, Pascal
TUE-2_BRU_2.09-03,
WED-1_AUG_4.03-02
Rezaei, Ali
MON-2_MUC_3.01-05, TUE-2_BUD_3.0508, TUE-4_BUD_3.05-13
WED-3_BRI_2.04-18
Rezende, Mirabel
PO-2-45
Ramakrishnan, Karthik Ram
TUE-4_BRI_2.04-08, PO-3-32
Rhead, Andrew
TUE-1_STO_3.15-07
Raman, V.
MON-3_NAP_2.06-12
Ridzewski, Jens
Ramage, Michael H.
Roth, S.
WED-1_VEN_3.18-10
Sandoval Murillo, José Luis
MON-4_STO_3.15-03
Rother, Klemens
TUE-4_ATH_1.02-02
Sanial, Philippe
MON-2_SEV_3.07-04
Rouhi, Mohammad
WED-2_MUC_3.02-11,
THUR-2_BIA_3.19-08
Sanitther, Bamend
WED-2_VEN_3.18-14
Santagiuliana, Giovanni
TUE-1_NAP_2.06-19
Rousseau, Jérôme
WED-2_AUG_4.03-08,
THUR-1_MUC_3.13-03
Santos, L. S.
PO-5-16
THUR-2_BUD_3.10-19
Rousset, Jean-Brice
MON-2_ATH_1.01-06
Saouab, Abdelghani
TUE-4_STG_5.03-01
THUR-1_MUC_3.13-03
Riecken, Björn
MON-3_BRU_2.02-11
Roux, Maxime
WED-1_ING_7.02-17
Saoudi, Jamel
THUR-2_BOR_5.10-07
Ramesh, Abhiram
MON-2_STO_3.21-03
Riedel, Werner
MON-3_BIA_3.11-09, PO-3-08
Roy, Anish
MON-2_BIA_3.11-04, MON-4_BIA_3.11-13
Sapozhnikov, Sergei
TUE-1_BIA_3.11-20, PO-2-43
Rans, Calvin
TUE-3_VEN_3.18-01, WED-2_STO_3.20-07
Rief, Thomas
WED-1_BUD_3.10-01
Royo Pérez, Sandra
THUR-2_BOR_5.10-06
Saprykin, Alexander
TUE-2_BRU_2.09-04
MON-2_AUG_4.02-06,
MON-2_AUG_4.02-07
Rieger, Florian
THUR-1_STO_3.20-16
Rozycki, Patrick
Sarasini, Fabrizio
PO-3-49
Riesch, Johann
TUE-2_BRU_2.09-05
MON-2_STO_3.21-01,
THUR-1_BUD_3.10-16, PO-3-30, PO-3-50
Saratov, Anton
MON-4_BOR_5.02-05
Rao, Sanjeev
PO-3-61
Rieser, René
WED-2_BUD_3.10-04
Ruch, David
WED-1_NAP_2.03-06
Sarlin, Essi
MON-3_AUG_4.04-03
Raphael, Wassim
TUE-2_BUD_3.05-05
Righi, Riccardo
MON-4_BIA_3.11-15
Rudolph, Natalie
Sarrado, Carlos
Rapking, Dan
MON-3_MUC_3.01-10
TUE-3_AUG_4.05-03,
TUE-4_AUG_4.05-05
Rimmel, Oliver
WED-2_STO_3.20-06,
THUR-1_STO_3.20-17
TUE-2_LON_5.06-13
Rapp, Helmut
TUE-3_BIA_3.12-03
THUR-2_RHO_3.16-12
Rueppel, Marvin
MON-2_LON_5.07-01, PO-5-17
Rinneberg, Torsten
Sarrionandia, Mariasun
WED-3_BRU_2.12-08
Rashidi Mehrabadi, Armin
WED-1_ING_7.02-16
PO-3-19
Ruiz de Luzuriaga, Alaitz
MON-4_BRU_2.02-17
Rion, J.
Saseendran, Sibin
Rashidi, Masoud
TUE-3_BIA_3.12-03, TUE-4_BRI_2.04-05,
WED-2_BRI_2.04-14
Ruiz Ripoll, Maria Luisa
MON-3_BIA_3.11-09
MON-4_ING_6.03-01
Sassi, Sonia
WED-1_STG_5.03-07
PO-3-10
Runkel, Falk
THUR-1_BIA_3.19-01
PO-3-25
Rishmany, Jihad
Satheesh, Britto
MON-3_LON_5.06-02
Rasselet, François
TUE-3_BOR_5.12-02
Rupp, Peter
TUE-4_VEN_3.18-09
WED-3_BIA_3.08-11
Rittenschober, Bernhard
Sato, Mio
MON-3_MUC_3.01-09
Ratsifandrihana, Léon
Rivallant, Samuel
TUE-1_STO_3.15-05
Russo, Pietro
PO-2-34, PO-3-49
TUE-1_STO_3.15-05
Sato, Narumichi
MON-1_BUD_3.04-03
Raupach, Michael
MON-2_ATH_1.01-04
Ruzek, Roman
WED-1_STO_3.20-01
PO_1-11
Rivenc, Jean
Satoshi, Imeda
TUE-1_ING_7.02-02
Rausch, Julius
Rizvi, MD Jahir
WED-2_BUD_3.10-07
Sa, Ricardo
MON-4_VEN_3.06-14
MON-4_BIA_3.11-15, WED-2_STG_5.03-10
Sause, Markus
Rausch-Schott, Oliver
R‘Mili, Mohamed
Saarela, Olli
TUE-2_BUD_3.05-05
TUE-4_BRI_2.04-07
Sab, Karam
MON-3_AUG_4.04-02, TUE-4_NAP_2.0304, TUE-4_STG_5.03-04, WED-2_
VEN_3.18-17
Ravandi, Mohammad
WED-1_AUG_4.03-02,
TUE-2_BRU_2.09-03
WED-3_BUD_3.10-09
TUE-4_BRI_2.04-06
PO-3-10
PO_1-10
Saba, Nicolas
TUE-4_ING_7.02-12
WED-2_BIA_3.08-04
Savage, Luke
Ravot, Nicolas
Robert, Gilles
WED-3_LON_5.13-02
MON-2_MUC_3.01-08,
WED-1_RHO_3.05-18
Scarpa, Fabrizio
MON-1_NAP_2.06-02, PO-2-57
Razavi, Seyedalireza
PO-6-03
Sachse, Ronny
THUR-1_BIA_3.19-02
WED-3_BOR_1.05-01
WED-1_STO_3.20-02,
WED-2_AUG_4.03-04
Scarselli, Gennaro
Razin, Alexandr
MON-1_MUC_3.01-03, MON-2_ING_6.0102, MON-2_ING_6.01-05, MON-3_
ING_6.01-07, TUE-2_STO_3.14-04,
WED-2_SEV_3.22-07, WED-3_SEV_3.2209, WED-4_SEV_3.22-13
Sabiston, Trevor
TUE-3_AUG_4.05-01
Raza, Irfan
Robinson, Paul
Savinov, Maxim
Schäfer, Philipp Maximilian
MON-3_STG_5.09-09
Reeb, Andreas
PO-2-42
Sáenz Domínguez, Iván
MON-2_LON_5.07-01, PO-5-17
Schagerl, Martin
Reed, Philippa
MON-1_BIA_3.11-01
Saez, Eduardo
TUE-4_ING_7.02-13
TUE-3_SEV_3.03-14,
WED-2_AUG_4.03-05
Reese, Stefanie
TUE-2_MUC_3.01-21
Ramasso, Emmanuel
Rao, Guruprasad
Rashkovan, Izabella
Rehbein, Johannes
THUR-2_BRI_2.13-02
Reichardt, Jasper
MON-2_LON_5.07-03
Reimer, Viktor
TUE-4_BOR_5.12-06
Reinard, Sarah
WED-1_NAP_2.03-06
Rocha, Iuri
THUR-2_MUC_3.13-04,
THUR-2_MUC_3.13-07
Roche, Emilie
WED-3_BIA_3.08-11
Saez-Rodriguez, E.
TUE-1_ING_7.02-01
Schalk, Thomas
WED-1_BUD_3.10-01
Rodriguez Pila, Ernesto
TUE-3_BUD_3.05-09
Safonov, Alexander
MON-4_BOR_5.02-05, PO-3-06
Schatrow, Paul
MON-4_ATH_1.01-14
Rodriguez Senin, Elena
WED-4_ATH_1.03-01
Safonov, Evgeniy
PO-2-43
Scheerer, Michael
TUE-3_BOR_5.12-02
Rodriguez, F.
PO-2-55
Sager, Mustafa
WED-1_STG_5.03-08
Scheichl, Robert
TUE-4_BUD_3.05-14
Rodríguez, Fernando
MON-3_LON_5.06-03, PO-5-13
Saghafi, Hamed
MON-1_NAP_2.06-01
Scheuer, Adrien
TUE-2_BOR_5.14-05
Rodriguez, Oscar
TUE-2_BRU_2.09-02
Saha, Gobinda
Schiebel, Patrick
MON-4_STG_5.09-14
Rodríguez-Luján, P. G.
TUE-1_BIA_3.11-19, TUE-2_BIA_3.11-21
MON-2_NAP_2.06-05,
MON-2_SEV_3.07-06
Schierle, Diego
THUR-1_LON_5.05-01
Roebroeks, Geert
PO-3-13
Sain, Mohini
MON-4_NAP_2.06-16
Schijve, Warden
TUE-2_MUC_3.01-20
Roelse, J.W.
MON-3_VEN_3.06-11
Saintier, Nicolas
WED-2_BIA_3.08-04
Schilling, Petra
THUR-1_RHO_3.16-06
Roese-Koerner, Imke
WED-3_BRU_2.12-08
Sainz, Jose Ramon
Schirmaier, Fabian
WED-2_LON_5.01-09
Rogaume, Thomas
WED-3_BRU_2.12-10
MON-1_SEV_3.07-02,
MON-3_SEV_3.07-10, MON-4_BIA_3.1116, TUE-2_SEV_3.03-09
Schledjewski, Ralf
MON-3_LON_5.06-02, TUE-3_BOR_5.1201, TUE-3_BOR_5.12-03, WED-2_
STG_5.03-12, PO-1-02, PO-2-20, PO-5-16
Reinarz, Anne K.
TUE-4_BUD_3.05-14
Reiner, Johannes
TUE-4_SEV_3.03-18
Reinhard, Björn
MON-3_BOR_5.02-02
Reinhardt, Oliver
MON-4_ATH_1.01-13
Reinoso, José
MON-1_BUD_3.04-01,
THUR-1_BIA_3.19-03
Reiß, Markus
PO-5-04
Roirand, Quentin
MON-1_VEN_3.06-03
Saito, Hiroshi
MON-2_RHO_3.23-04, PO-2-14
Rekondo, Alaitz
WED-1_ING_7.02-16
Rolland du Roscoat, Sabine
TUE-2_BOR_5.14-07
Salaberger, Dietmar
TUE-3_ATH_1.04-03
MON-4_LON_5.06-08,
WED-2_ING_7.01-03
Rolland, Héloïse
WED-2_BIA_3.08-04
MON-2_AUG_4.02-07,
WED-2_BIA_3.08-07, WED-4_BIA_3.0814, THUR-2_VEN_3.17-13
Schleupen, Josef
Remer, Niklas
Schlichter, Stefan
TUE-1_ING_7.02-03
Romahn, B.
MON-1_STG_5.09-03
Salavagione, H.
MON-2_BRI_2.07-06
Schlimper, Ralf
WED-3_VEN_3.17-03
Romanenko, Vitali
TUE-1_BOR_5.14-03
Salek, Hasan
MON-4_LON_5.06-09
Schlueter, Martin
TUE-2_BIA_3.11-23
Romano, Fulvio
PO_1-03
Salmon, Christeline
MON-2_ATH_1.01-07
Schmack, Tobias
MON-4_BIA_3.11-15
Romanos, Georges
TUE-4_ATH_1.02-01, WED-4_STO_3.20-13
Salomi, Andrea
THUR-1_BIA_3.19-02
Schmal, Christopher
WED-2_VEN_3.18-15
Romanov, Valentin
TUE-4_MUC_3.01-29,
THUR-2_STO_3.20-21
Sanada, Kazuaki
MON-4_NAP_2.06-13, TUE-2_NAP_2.0624, WED-3_BIA_3.08-10
Schmeer, Sebastian
TUE-2_BRI_2.08-01
Romera, Jesús M.
TUE-2_SEV_3.03-13
Schmider, Markus
WED-3_ATH_1.02-12
Sanchez Alvarado, Carlos
MON-1_BOR_5.08-03
Röper, Florian
PO-3-62
Schmidt, Annette
WED-4_ING_6.02-07
Sánchez, Fernando
TUE-3_ATH_1.04-04
Roquette, David
MON-1_BOR_5.08-01,
MON-4_BIA_3.11-15
Schmidt-Eisenlohr, Clemens
MON-1_LON_5.11-01, PO-5-27
Sánchez-Gómez, Jose
TUE-3_STO_3.14-06, WED-3_STO_3.20-09
Schmied, Jascha U.
WED-3_ING_6.02-03
Sanchez-Saez, Sonia
PO-3-57
Schmier, Stefanie
WED-3_ING_6.02-04
Sandhu, Anhadjeet
TUE-4_ING_7.02-12, WED-1_AUG_4.03-03
Schneeberger, Christoph
TUE-2_STG_5.09-22
Sandino, Carlos
MON-2_MUC_3.01-04
Remesan, Harilal
THUR-2_BRI_2.13-05
Remi, Bertrand
MON-1_AUG_4.02-01
Remmers, Joris
MON-4_BUD_3.04-17
Renard, Jacques
TUE-3_SEV_3.03-16, WED-3_BIA_3.08-11
Renart, Jordi
WED-2_STO_3.20-06,
THUR-1_STO_3.20-17
Renault, Thierry
PO-3-50
Reppe, Matti
WED-2_ING_7.01-03
Resch, Katharina
PO-2-20
Rév, Tamás
WED-2_SEV_3.22-05
Rosca, Daniel
MON-2_NAP_2.06-08
Rey Rodríguez, Pilar
PO-3-59
Roser, Tim
MON-3_BOR_5.02-02,
TUE-3_BOR_5.12-02
99
Autor
Sevenois, Ruben
MON-2_MUC_3.01-05, MON-2_VEN_3.0604, TUE-2_BUD_3.05-08, WED-1_
RHO_3.05-20
Söhnchen, Richard
TUE-3_AUG_4.05-02
Studer, Julia
MON-3_STG_5.09-08
Soldov, Igor
TUE-2_AUG_4.01-10
Stuebner, Michael
MON-4_SEV_3.03-05
Schneider, B.
TUE-1_ATH_1.01-18
Schneider, Julien
MON-2_BIA_3.11-05
Sever, Ibrahim
WED-2_BUD_3.10-06
Sonehara, Takeo
WED-2_BRU_2.12-05
Sturm, Ralf
MON-4_ATH_1.01-14
MON-2_ATH_1.01-05, PO-5-26
Seyhan, Abdullah Tugrul
PO-2-06
Song, Seung A
MON-3_STG_5.09-11, TUE-3_BRU_2.14-04
Su, Ju
PO-2-37
Schneiderbauer, Michael
TUE-1_LON_5.06-12
Shaffer, Milo
Song, Yu-jie
MON-3_BRI_2.07-09
Su, Youliang
TUE-4_ING_7.02-14
Sonmez, Fazil Onder
WED-3_VEN_3.17-01
THUR-1_BOR_5.10-01,
THUR-1_BOR_5.10-02
Schneller, Anna
TUE-2_STO_3.14-04, WED-2_SEV_3.22-07,
WED-4_NAP_2.01-06, PO-2-28, PO-3-39
Su, Zhoucheng
MON-3_BIA_3.11-12, WED-4_ATH_1.03-02
Schnurr, Raphael
MON-4_STG_5.09-16
Suemasu, Hiroshi
MON-4_SEV_3.03-04
Schollerer, Martin
MON-2_RHO_3.23-06,
TUE-2_AUG_4.01-09
Suganuma, Hirofumi
MON-2_SEV_3.07-05
Sultana, Sanzida
WED-1_ATH_1.02-06
Sun, Bao-Gang
PO-2-44
Sun, Hongjie
MON-4_LON_5.06-09
Sun, Jian
MON-3_BRI_2.07-11
Sun, Jian-Bo
PO-2-44
Sun, Jingjing
WED-4_SEV_3.22-13
Sun, Shiyong
TUE-3_BIA_3.12-02
Sun, Weiwei
PO-2-50
Sun, Yi
TUE-2_STO_3.14-01
Sung, Minchang
MON-4_BUD_3.04-16
Sung, Y.C.
WED-3_BOR_1.05-02
Surmiri, A.
PO-3-43
Schneider, Marco
Shah, Darshil Upendra
WED-3_BRI_2.04-18
Sonnenfeld, Camille
TUE-4_STG_5.03-01
Shakespeare, Paul
TUE-4_BOR_5.12-07
Sørensen, Bent F.
MON-2_BUD_3.04-07
Shankar, Krishna
PO-3-32
Sorensen, L.
MON-3_SEV_3.07-11
WED-4_LON_5.13-05
Sorochynska, Liubov
THUR-1_STO_3.20-16
Sorrentino, Luigi
MON-3_BIA_3.11-10,
TUE-4_BRU_2.14-05, PO-3-49
Sotiriadis, George
MON-3_BRI_2.07-12, MON-3_BRI_2.07-10,
WED-4_ING_6.02-06, PO-3-33
Schommer, Dominic
WED-2_LON_5.01-10
Shankhachur Roy, Sree
Schormans, Jim
PO-3-01
Sharkeev, Yu. P.
TUE-2_BRU_2.09-04
MON-2_BOR_5.08-06
Sharma, Bhavna
WED-3_BRI_2.04-18
Schubert, Dirk
PO-2-05
Sharma, Sonia
TUE-2_NAP_2.06-22
Schubert, Fabian
WED-3_NAP_2.01-04
Shateri, Mohammadhadi
WED-3_AUG_4.03-11
WED-3_MUC_3.02-12,
THUR-2_BUD_3.10-23
Shaw, Richard
TUE-3_ATH_1.04-01
Sheen, Horn-Jiunn
TUE-4_SEV_3.03-21
Schuerger, Christian
TUE-1_LON_5.06-10
Shekhawat, Ashivni
PO-6-08
Schug, Alexander
MON-4_STG_5.09-12
Shen, Ming-Yuan
PO-2-38, PO-2-51
Schuh, Benjamin
WED-3_BRU_2.12-08
Shen, Xi
MON-1_BRI_2.07-03, MON-2_BRI_2.07-04
Schulte, K.
MON-4_BRI_2.07-15
Shenoi, R. Ajit
WED-4_ATH_1.03-02
Schulte, Thorolf
WED-2_VEN_3.18-15
Shi, Han-Qiao
PO-2-44
Schulz, Martin
TUE-4_LON_5.01-03
Shi, Wei
PO-5-28
Schuster, Alfons
THUR-2_LON_5.05-06
Shimamura, Yoshinobu
Schuster, Jens
THUR-2_BRI_2.13-01
Schuster, Uwe
Schubel, Peter
Soto, Albert
MON-4_BIA_3.11-16
Soulat, Damien
WED-3_STG_5.04-03
Soutis, Costas
MON-2_AUG_4.02-08
Soutschek, Markus
MON-4_SEV_3.03-01
Sozer, E. Murat
WED-1_STG_5.03-06
Spearing, Mark
MON-1_BIA_3.11-01, TUE-2_MUC_3.01-22
Speck, Olga
THUR-1_ING_6.02-10
Speck, Thomas
WED-3_ING_6.02-04,
THUR-1_ING_6.02-10
Sutcliffe, Michael
WED-1_VEN_3.18-12
PO-2-35
Spena, Paola
PO-2-34
Suttmann, Oliver
PO-2-15
Spitko, S.
TUE-1_STG_5.09-19,
THUR-2_BOR_5.10-08
Shin, Hyun Kyu
MON-2_BRU_2.02-04
MON-3_BOR_5.02-01
TUE-4_MUC_3.01-29
Spitz, Nicolas
Suwarta, Putu
WED-1_SEV_3.22-02
Shishkina, Oksana
MON-3_AUG_4.04-01
Schütte, Jan
WED-2_ATH_1.02-09
THUR-2_BRI_2.13-04
Shojaei, Akabr
MON-3_BRU_2.02-09
Sposato, Corradino
Suzuki, Yoshiro
THUR-2_STG_1.05-13
Schütz, Martin
THUR-2_BRI_2.13-01
WED-3_AUG_4.03-11
Shynkarenko, Olexiy
PO_1-04
Spronk, Siebe
Svecova, Dagmar
Schwab, Bernhard
WED-2_ING_7.01-02
Swanson, Phil
WED-1_LON_5.01-06
Sikora, Sebastian
THUR-2_RHO_3.16-10
MON-2_MUC_3.01-05, MON-3_BUD_3.0412, TUE-2_BUD_3.05-08
St.John, Nigel
TUE-4_VEN_3.18-08
Sweygers, Nick
WED-3_BRI_2.04-20
Staab, Florian
WED-4_STO_3.20-14
Swolfs, Yentl
Staehr, Richard
TUE-2_STO_3.14-02, WED-1_SEV_3.22-03,
WED-2_SEV_3.22-08
THUR-2_BOR_5.10-06,
THUR-2_BOR_5.10-08
Schuecker, Clara
100
ID
Schwab, Martin
TUE-2_BIA_3.11-22
Silberschmidt, Vadim
MON-2_BIA_3.11-04, MON-4_BIA_3.11-13
Schwanemann, Philipp
PO-5-21
Silva, Fernando
WED-1_BOR_5.12-09
Schwingenschlögl, Alex
WED-3_ATH_1.02-13
Silva, L.
TUE-2_BOR_5.14-07
Syed Abdullah, Syed Idros
MON-2_BIA_3.11-08
Scobbie, Kenneth
MON-3_SEV_3.07-11
Simenou Jambong, Gidéon
TUE-2_ING_7.02-06, TUE-3_ING_7.02-10
TUE-3_ING_7.02-09
Sygellou, Lamprini
WED-1_NAP_2.03-05
Sebastien, Denneulin
MON-1_AUG_4.02-01
Stafford, Mhari
Simmons, M.
MON-2_AUG_4.02-05
TUE-1_BUD_3.05-02
Szcesny, Marko
TUE-1_LON_5.06-12
Sedighiamiri, Amin
WED-4_BIA_3.08-15
Stamopoulos, Antonis
Simon, Jaan-Willem
TUE-2_MUC_3.01-21
WED-4_LON_5.13-05
Szmyt, Wojciech
WED-3_NAP_2.01-02
Sedlbauer, K.
WED-2_ING_7.01-02
Stanier, David
Simon, Zoltan
TUE-3_BOR_5.12-02
MON-4_VEN_3.06-17
Szostak, Marek
MON-4_NAP_2.06-14, PO-2-27
Seemann, Ralf
WED-4_VEN_3.17-06
Stanley, Walter
Simone, Angelo
MON-1_BRU_2.02-01
TUE-2_MUC_3.01-21
T. Marques, Antonio
WED-1_MUC_3.02-05
Sehrschön, Harald
TUE-1_LON_5.06-12
Stapleton, Scott
Simonelli, Federico
MON-3_ATH_1.01-09
TUE-1_ATH_1.01-17
Ta, Anh Tuan
TUE-4_LON_5.01-04
Seide, Gunnar
MON-2_STG_5.09-07, WED-3_NAP_2.0101, WED-4_NAP_2.01-05, PO_1-09,
PO-2-04, PO-2-41, PO-5-19, PO-5-22
Starke, Peter
Sinapius, Michael
MON-2_RHO_3.23-06
Staudt, Bernhard
MON-2_STO_3.21-02
Tabatabaei, Ahmad
TUE-1_VEN_3.06-18
Singery, Vicky
MON-2_SEV_3.07-04
Stefani, Thomas
MON-1_STG_5.09-02
Tajiri, Tomohiro
PO-2-35
Seifert, Wolfgang
TUE-1_VEN_3.06-19
Singh, Mandeep
PO-2-18
Stefanziosa, Clemens
TUE-2_STG_5.09-23
Takahashi, Jun
Seitier, Philippe
THUR-2_BOR_5.10-07
Sinic, Judith
TUE-4_BRI_2.04-06
Stegelmann, Michael
THUR-2_AUG_8.01-03
Seki, Sen
PO-3-27
Sitnikova, Elena
WED-4_MUC_3.02-16
Stelescu, Maria Daniela
PO-2-08
Sekido, Toshihide
MON-2_STG_5.09-04
Sket, Federico
Stelzer, Steffen
WED-2_BUD_3.10-04
Sekine, Naoyuki
THUR-2_BRI_2.13-04
MON-1_BOR_5.08-02,
MON-2_AUG_4.02-05
MON-2_SEV_3.07-05, MON4_STG_5.09-13, TUE-4_BIA_3.09-01,
TUE-4_BIA_3.09-02, TUE-4_BIA_3.09-04,
WED-2_BRU_2.12-05, PO-3-35, PO-3-41,
PO-3-55
Takahashi, Kosuke
MON-1_MUC_3.01-02
TUE-2_ING_7.02-05
WED-1_SEV_3.22-03
WED-3_BOR_1.05-01
Steuernagel, Leif
Selezneva, Marina
Skleznev, Andrey
Takahashi, Tatsuhiro
TUE-4_BRI_2.04-08
PO-2-16
MON-3_BRU_2.02-10,
WED-3_BRU_2.12-09
THUR-2_BRI_2.13-05
Slangen, Pierre
Stifter, David
Selvakumaran, Lakshmi
Selyugin, Sergey
THUR-2_BIA_3.19-05
Slovikov, Stanislav
PO-3-34
MON-1_ATH_1.01-01, TUE-3_BOR_5.1204, WED-1_STO_3.20-03
Senck, Sascha
MON-2_AUG_4.02-07
Sluys, Bert
MON-3_BUD_3.04-11
Seong, Dong Gi
MON-2_BOR_5.08-05, PO-2-09
Sluys, L. J.
THUR-2_MUC_3.13-04
Sepe, Raffaele
PO-2-22
Smazna, D.
MON-4_BRI_2.07-15
Serovaev, Grigorii
PO-3-14
Serra, Joel
TUE-4_SEV_3.03-19
Sethi, Jatin
MON-4_NAP_2.06-16
Seveno, David
MON-4_BRU_2.02-14,
WED-2_BRI_2.04-15, PO-2-25
Stigh, Ulf
TUE-2_SEV_3.03-10
Takeda, Nobuo
Stocchi, Ariel
THUR-1_VEN_3.17-08,
THUR-2_RHO_3.16-12
Takehiro, Yamaguchi
PO-3-04
Stoffers, Niels
MON-4_LON_5.06-07,
TUE-3_LON_5.06-21
Taketa, Ichiro
TUE-4_LON_5.01-02, WED-2_BIA_3.0805, THUR-2_BUD_3.10-21, PO-3-27
PO-2-12
Smith, Paul
TUE-2_VEN_3.06-25
Stokes-Griffin, Christopher
TUE-2_LON_5.06-17
Takeuchi, Kento
Smith, Wayne
MON-3_SEV_3.07-11
Stoll, Matthias
THUR-1_NAP_2.01-08, PO-3-38
Takeuchi, Ryouta
TUE-2_NAP_2.06-24
Snajdr, Roman
MON-1_BOR_5.08-03
Stommel, Markus
TUE-3_VEN_3.18-03
Taktak, Mohamed
THUR-1_BRU_2.11-03
Snudden, Jamie
TUE-2_ING_7.02-07
St-Pierre, Luc
TUE-3_MUC_3.01-27
Takushi, Miyake
TUE-1_ING_7.02-02
Sobczak, Lukas
WED-2_BIA_3.08-07
Straumit, Ilya
Taleb, Lakhdar
THUR-1_BRU_2.11-03
Sobey, Adam
TUE-3_BRI_2.04-02, WED-4_ATH_1.03-02
MON-4_VEN_3.06-15, TUE-2_BUD_3.0507, TUE-4_BUD_3.05-15, PO-5-11
Tan, Vincent B.C.
Sobotka, Vincent
WED-1_STG_5.03-08
MON-3_BUD_3.04-10, MON-4_STO_3.1501, TUE-3_SEV_3.03-15
Studart, Andre R.
WED-3_ING_6.02-01, WED-3_ING_6.0202, WED-3_ING_6.02-03
Autor
ID
Tirvaudey, M.
MON-3_BUD_3.04-10
Tita, Volnei
PO-3-28
Todeschini, Yann
TUE-4_BIA_3.09-03
Todoroki, Akira
THUR-2_BRI_2.13-04,
WED-1_ATH_1.02-05
Tan, Wei
TUE-4_STO_3.02-03, PO-3-15
Tan, Wei Yu
TUE-4_BIA_3.09-05
Tanabe, Daiki
TUE-3_STG_5.09-26, PO-5-12
Tanahashi, Mitsuru
MON-4_NAP_2.06-17
Toepker, Jochen
MON-2_BOR_5.08-04
Tanaka, Fumihiko
TUE-4_AUG_4.05-09
Toftegaard, Helmuth
MON-2_BUD_3.04-08
Tanaka, Mototsugu
MON-2_RHO_3.23-04, PO-2-14
Tang, Chen
MON-2_BRI_2.07-04
Tang, Xiu-zhi
MON-3_BRI_2.07-09
Tonatto, Maikson Luiz Passaia
Tong, Mingbo
Torii, Kousuke
PO-3-28
WED-1_RHO_3.05-19
PO-2-26
Tapia, Andres
WED-3_BIA_3.08-12
Tornabene, Francesco
MON-2_SEV_3.07-06
Tarpani, Jose
MON-1_BRU_2.02-02
Torrecilla, Marcos Colungo
TUE-1_BIA_3.11-18
Tartler, Manuel
TUE-4_LON_5.01-05
Torres, Juan José
MON-2_AUG_4.02-05
Tashkinov, Anatoliy
PO-3-44
Tost, Andre
THUR-2_BUD_3.10-19
Tashkinov, Mikhail
PO-3-44
Totaro, Giovanni
MON-4_AUG_4.01-01
Taubert, Robin
WED-3_SEV_3.22-11
Touchard, Fabienne
Távara, Luis
MON-4_MUC_3.01-16,
WED-3_LON_5.13-03
TUE-1_BRU_2.10-02, WED-2_BRI_2.04-13,
PO-2-19, PO-3-49
Toulitsis, Anastasios
PO-3-11
Tavares, Rodrigo
TUE-2_BRI_2.08-03
Tragangoon, Arruck
TUE-3_SEV_3.03-16
Tawk, Issam
TUE-1_BIA_3.11-18, PO-3-10
Tramecon, Alain
TUE-4_SEV_3.03-22
Tay, Tong-Earn
MON-3_BUD_3.04-10,
MON-4_STO_3.15-01, TUE-3_SEV_3.03-15,
TUE-4_BRI_2.04-07
Tran, Le Quan Ngoc
TUE-2_NAP_2.06-23
Taylor, Ambrose C.
Uzawa, Kiyoshi
MON-2_RHO_3.23-04,
MON-2_STG_5.09-04
Vodička, Roman
WED-3_MUC_3.02-13
Vogel, Samuel
WED-3_NAP_2.01-02
Vogt, Oliver
WED-1_VEN_3.18-11
Voigt, Axel
MON-1_AUG_4.02-02
Volk, Brent
MON-4_SEV_3.03-05
Vallons, Katleen
THUR-2_BUD_3.10-21
Valverde, Mario
PO-5-14
Van der Heijden, Sam
TUE-3_NAP_2.06-26
Van der Meer, Frans
MON-3_BUD_3.04-11, WED-2_MUC_3.0210, THUR-2_MUC_3.13-04
Vollaro, Paolo
PO-2-49
Van der Woude, Jaap
WED-2_ING_7.01-01
Volponi, Ruggero
PO-2-34
Van Duijneveldt, Jeroen
PO-2-57
von Essen, Mathias
MON-3_AUG_4.04-03
Van Eekelen, Tom
PO-2-52
THUR-2_STO_3.20-23
Van Erb, Tim
WED-4_BIA_3.08-15
von Hafe Pérez Ferreira da Silva,
Manuel Tiago
Van Hattum, F. W. J.
von Hehl, Axel
WED-2_VEN_3.18-13
MON-4_VEN_3.06-14
Van Moorleghem, R.
THUR-2_AUG_8.01-04
WED-4_STO_3.20-15
von Reden, Tjark
Van Oosterom, S.
WED-4_ING_6.02-07
WED-2_STG_5.03-09
von Tapavicza, Max
Van Paepegem, Wim
MON-2_STG_5.09-07
MON-2_BIA_3.11-06, MON-2_MUC_3.0105, MON-2_VEN_3.06-04, MON-3_
BUD_3.04-12, TUE-2_BUD_3.05-08,
TUE-3_NAP_2.06-26, TUE-4_BUD_3.0513, WED-1_RHO_3.05-20, PO-3-22
Vonberg, Klaus
Voronov, Leonid
MON-4_BIA_3.11-13
Vuorinen, Jyrki
MON-3_AUG_4.04-03
Wafei, Husam
MON-3_MUC_3.01-11
Wafzig, Florian
TUE-4_VEN_3.18-09
Wagih, Ahmed
MON-1_SEV_3.07-02
Wagner, Sebastian
THUR-2_RHO_3.16-10
Wahl, Jean-Christophe
TUE-4_STO_3.02-02
Wales, Paul
MON-1_RHO_3.23-01
Walther, Frank
MON-4_BIA_3.11-15, MON-4_STO_3.15-04
Wan Jusoh, Wan
WED-1_BRU_2.12-01, WED-3_BRU_2.12-11
Van Vuure, Aart
TUE-3_BRI_2.04-01, WED-2_BRI_2.04-14,
WED-2_BRI_2.04-15, WED-3_BRI_2.0420, WED-4_BRI_2.04-21, PO-2-25
TUE-4_BRI_2.04-07, WED-1_BRI_2.04-11
Vanclooster, Kristof
WED-1_RHO_3.05-20
Tran, Nicolas
MON-2_BIA_3.11-05
Vandenbrande, A.
MON-3_BOR_5.02-01
Trappe, Volker
THUR-1_BUD_3.10-18
Vander Sloten, Jos
TUE-3_BRU_2.14-03
Varas, D.
MON-3_BIA_3.11-11, TUE-1_BIA_3.11-19,
TUE-2_BIA_3.11-21
Varela, T.
TUE-3_STO_3.14-06
Wan Nawawi, Wan
TUE-3_BRI_2.04-04
Varganici, Cristian
PO-2-08
Wan, Yi
Varley, Russel
TUE-4_VEN_3.18-08
MON-4_STG_5.09-13, TUE-4_BIA_3.0901, TUE-4_BIA_3.09-02
Varna, Janis
MON-4_AUG_4.01-04, MON-4_BRU_2.0217, MON-4_ING_6.03-03, WED-3_
MUC_3.02-14
Wang, Ben
MON-2_BRU_2.02-08, PO-2-17
Wang, Beng
TUE-4_NAP_2.03-01
Wang, Chen
MON-2_BIA_3.11-04
Wang, Chung
TUE-4_VEN_3.18-08
Wang, Dandan
MON-3_BRI_2.07-11
Wang, Fang
MON-1_BRI_2.07-01
Wang, Fuji
TUE-3_BIA_3.12-02, THUR-1_BOR_5.1001, THUR-1_BOR_5.10-02
Wang, Gui Song
TUE-2_STO_3.14-01
Wang, Guorui
WED-2_NAP_2.03-11
Wang, Hai
PO-3-64
Wang, Hongxiao
TUE-4_NAP_2.03-01
Wang, Jeng-An
MON-2_BRI_2.07-08
Wang, Jihui
THUR-1_ATH_1.08-01
Wang, Tai-Yuan
PO-2-33
Wang, Wandong
TUE-3_VEN_3.18-01
Wang, Wei
PO-2-07
Taylor, Ian
MON-2_BOR_5.08-06
Trauth, Anna
PO-5-34
Tchugaynova, A. V.
PO-3-12
Travaglini, Giuseppe
MON-3_NAP_2.06-10
Tellis, Jane J.
TUE-4_STG_5.03-03
Tridech, Charnwit
MON-2_ING_6.01-02
Tena, Iosu
MON-2_LON_5.07-01, PO-5-17
Troester, Thomas
WED-2_VEN_3.18-14
Tenhaeff, Katja
TUE-4_VEN_3.18-05
Truong Hoang, Thuy-Quynh
PO-2-19
Tenne, Reshef
MON-1_BRI_2.07-01
Truss, Rowan W.
THUR-2_NAP_2.01-10
Teo, Wern Sze
TUE-4_BRI_2.04-07, WED-1_BRI_2.04-11
Tsai, Jia-Lin
PO-2-33
Tephany, Christophe
WED-3_STG_5.04-03
Tsampas, Spyros
THUR-2_BRU_2.11-05
Terada, Mariko
MON-2_BRI_2.07-07
Tsantzalis, Stavros
Teratani, Mahiro
TUE-2_BOR_5.14-04
MON-3_BRI_2.07-12, MON-3_BRI_2.07-10,
WED-4_ING_6.02-05, WED-4_ING_6.0206, PO-3-33
Terekhina, Svetlana
PO-5-06, PO-5-23
Tse, Gavin
WED-3_VEN_3.17-02
Terrasi, Giovanni
WED-3_BOR_1.05-03,
WED-4_BOR_1.05-07
Tserpes, Konstaninos I.
Terrazzoni, Jerome
MON-2_ATH_1.01-06
Terrien, M.
TUE-2_BOR_5.14-07
Tertrais, Hermine
PO-5-20
Thatcher, James
TUE-1_AUG_4.01-05
Thielemann, Günther
WED-4_STG_5.04-05
Thielen, Marc
WED-3_ING_6.02-04
Thierry, Manon
TUE-4_BIA_3.09-05
Thijsse, Barend J.
MON-1_BRU_2.02-01
Tzeng, Shinn-Shyong
PO-2-02
Thionnet, Alain
MON-1_VEN_3.06-03
Ueda, Masahito
Thomas, Matthew
THUR-2_RHO_3.16-13
WED-1_ATH_1.02-05,
THUR-2_BRI_2.13-04
Thomason, James
TUE-1_ING_7.02-01, TUE-3_ING_7.02-09,
TUE-4_ING_7.02-13, WED-2_NAP_2.03-09
Ueyama, G.
PO-5-05
Um, Moon Kwang
MON-2_BOR_5.08-05, PO-2-09
Thompson, Adam
MON-1_VEN_3.06-01
Umer, Rehan
TUE-4_BRU_2.14-07, PO-3-46
Thomsen, Ole Thybo
MON-4_AUG_4.01-03,
THUR-2_VEN_3.17-12
Unterweger, Christoph
PO-2-16
Thomson, Douglas
WED-2_BUD_3.10-05, WED-3_AUG_4.0311
Urena, A.
PO-2-29
Ürk, Deniz
MON-1_NAP_2.06-03
Thorvaldsen, Tom
PO-2-36
Urushiyama, Yuta
WED-1_RHO_3.05-20
Thurnherr, Claudia
TUE-3_BUD_3.05-12
Ushakov, Andrey
MON-4_BOR_5.02-05, PO-3-06
Tighe, Rachael
TUE-2_AUG_4.01-08
Utrilla, Victoria
Tingle, James
MON-3_LON_5.06-01
Uvarkin, P. V.
TUE-2_BRU_2.09-04
Tirillò, Jacopo
PO-3-49
Uzal, Anil
WED-3_VEN_3.17-01
Vasiliadis, Harilaos
THUR-2_AUG_8.01-02
Vasiliev, Valery
WED-3_BOR_1.05-01
Vasiukov, Dmytro
TUE-4_BUD_3.05-15
Vassilopoulos, Anastasios
WED-1_BUD_3.10-02,
THUR-1_STG_1.05-10
TUE-1_BUD_3.05-02
Vaulin, Sergey
PO-2-43
Tsilimigkra, Xenia
WED-4_ING_6.02-06
Veidt, Martin
TUE-4_SEV_3.03-18
Tsoukleri, Georgia
MON-4_BRI_2.07-16
Vel, Senthil
WED-2_STO_3.20-05
Tsuge, Shiwon
PO-3-27
Velasco Lopez, Maria Luisa
TUE-4_STO_3.02-19
Tummala, Harsha
PO-5-10
Veldenz, Laura
MON-4_LON_5.06-05
Türck, Eiko
TUE-4_VEN_3.18-06
Verdolotti, Letizia
PO-2-49
Turkenburg, Daniel
PO-3-13
Verghese, Nikhil
Turon, Albert
THUR-1_STO_3.20-17, TUE-2_BRI_2.0803, WED-2_STO_3.20-06
MON-3_MUC_3.01-11,
WED-3_ATH_1.02-13
Verpoest, Ignaas
TUE-3_BRI_2.04-01, WED-1_SEV_3.22-03,
THUR-2_BUD_3.10-21
PO-2-40
Vidinejevs, S.
PO-6-06
Wang, Wei
Vieille, Benoit
THUR-1_BRU_2.11-03,
WED-1_BRU_2.12-03
MON-4_AUG_4.01-03, THUR-2_VEN_3.1712
Wang, Wei-Ting
PO-5-32
Vieira, Nuno
MON-4_VEN_3.06-14
Wang, Xichang
WED-3_STO_3.20-10
Vietor, Thomas
TUE-4_VEN_3.18-06
Wang, Yang
THUR-1_ATH_1.08-01
Vignoles, Gerard
MON-1_AUG_4.02-01, PO-4-3, PO-4-6
Wang, Yen-Ju
PO-2-02
Vila, Joaquí
MON-1_BOR_5.08-02
Wang, Yidi
PO-3-54
Vinogradov, Vladimir
WED-4_MUC_3.02-17, PO-3-07
Wang, Ying
Vinot, Mathieu
MON-4_ATH_1.01-14
MON-1_AUG_4.02-03,
MON-2_AUG_4.02-08
Vinti, Valeria
MON-2_RHO_3.23-05
Wang, Yuqing
WED-1_RHO_3.05-19
Vishwanath Rammohan, Abhishek
WED-1_BRI_2.04-11
Wang, Yu-Sheng
MON-2_BRI_2.07-08
Vitale, Juan Pablo
THUR-1_VEN_3.17-08,
THUR-2_RHO_3.16-12
Wang, Zheng
WED-2_VEN_3.18-14
Wang, Zhenyu
MON-1_BRI_2.07-03, MON-2_BRI_2.07-04
Wanner, Alexander
PO-2-42
Vivet, Alexandre
PO-2-39
101
Autor
Ward, Carwyn
102
ID
MON-1_LON_5.11-02, MON-4_BIA_3.1114, TUE-2_ING_7.02-07, TUE-3_
LON_5.06-19, TUE-3_LON_5.06-20,
WED-3_VEN_3.17-02, WED-4_LON_5.1306, PO-3-13, PO-5-08, PO-5-14
Wardle, Brian
TUE-2_AUG_4.01-11
Wargnier, Hervé
TUE-3_BUD_3.05-09
Warnet, Laurent
TUE-2_LON_5.06-16
Warren, Kyle
WED-2_STO_3.20-05
Warzok, Felix
WED-4_BUD_3.10-15
Wataki, Hirokuni
PO-3-55
Watanabe, Jun
TUE-3_SEV_3.03-17, TUE-4_AUG_4.05-09
Watanabe, Naoyuki
MON-4_BUD_3.04-15
Weaver, Paul
TUE-2_LON_5.06-14,
THUR-2_RHO_3.16-13
Wilkening, Jonas
PO-3-60
Xu, Johanna
MON-4_ING_6.03-03
Yüksel, Onur
PO-5-03
Wilkinson, Arthur
MON-4_BRI_2.07-14,
MON-4_NAP_2.06-15
Xu, Kun
TUE-2_VEN_3.06-23
Zaiß, Marielouise
TUE-2_BOR_5.14-06
Xu, Xiaodong
MON-4_BUD_3.04-14
Zallo, Antonio
MON-2_RHO_3.23-05
XU, Zhihong
PO-6-04
Zangenberg, Jens
MON-1_AUG_4.02-03
Xudan, Yao
MON-1_ATH_1.01-03
Zappalorto, Michele
Yalamaç, Emre
MON-2_BRU_2.02-07
MON-3_BUD_3.04-09, MON-3_ING_6.0106, TUE-2_MUC_3.01-24
Yaldiz, Recep
MON-3_MUC_3.01-11,
TUE-2_MUC_3.01-20
Zaremba, Swen
MON-1_BOR_5.08-03, MON-2_BOR_5.0807, MON-3_STG_5.09-09, THUR-2_
MUC_3.13-06
Willekens, Pieter
WED-2_BRI_2.04-15
Williams, Ryan D.
TUE-3_NAP_2.06-29
Williams, Stephen
TUE-3_LON_5.06-20
Wilmes, Andre
TUE-1_BUD_3.05-03
Wilson, Wouter
PO-3-01
Winkler, Paul
WED-2_ATH_1.02-08
Yamakawa, Koshiro
WED-2_LON_5.01-12
Zarif Karimi, Navid
PO-5-25
Winter, Darren
TUE-3_LON_5.06-20
Yamane, Takuya
THUR-2_BRI_2.13-04
Zarouchas, D. S.
WED-3_BUD_3.10-11
Wippo, Verena
TUE-1_STG_5.09-19, TUE-2_STG_5.09-20,
THUR-2_BOR_5.10-06
Yamashita, Shinichiro
MON-2_SEV_3.07-05,
WED-2_BRU_2.12-05, PO-3-35
Zarrelli, Mauro
PO-6-07
Wisnom, Michael
MON-4_BUD_3.04-14, WED-1_SEV_3.2201, WED-1_SEV_3.22-02, WED-2_
SEV_3.22-04, WED-2_SEV_3.22-05,
WED-2_SEV_3.22-08, WED-3_SEV_3.2212, WED-4_SEV_3.22-14
Yan, Jiayi
THUR-2_BIA_3.19-04
Zeiler, Rico
TUE-2_NAP_2.06-21
Yan, Shibo
MON-4_VEN_3.06-13
Zeleniakiene, Daiva
PO-3-02
Yan, Xiu
MON-1_NAP_2.06-01
Zeng, Xuesen
MON-2_BOR_5.08-06,
MON-4_VEN_3.06-13
Yang, Changyong
THUR-1_BOR_5.10-03
Zenker, Thomas
TUE-1_LON_5.06-10
Yang, Fan
WED-2_MUC_3.02-08
Zhan, Lihua
PO-3-15
Yang, Jia-Ming
PO-2-51
Zhang, Bohao
Yang, Jin-Shui
WED-4_VEN_3.17-05
MON-2_ING_6.01-02, MON-2_ING_6.0105, MON-3_ING_6.01-07
Weber, Tobias
MON-3_ATH_1.01-12
Withers, Emily
PO-5-08
Weber, Tobias A.
TUE-4_STG_5.03-03
Withers, Philip J.
Webley, Andrew
TUE-4_BRU_2.14-06
Wedekind, Max
MON-2_ATH_1.01-07
MON-1_AUG_4.02-03, MON-2_AUG_4.0208, MON-4_MUC_3.01-13, TUE-2_
VEN_3.06-25
Wedel, André
TUE-4_AUG_4.05-05,
WED-1_BOR_5.12-10
Wehner, Daniel
WED-2_ING_7.01-02
Wehrkamp-Richter, Tobias
TUE-2_VEN_3.06-22, WED-2_ATH_1.02-08
Wei, Haowen
MON-4_STG_5.09-13, PO-3-35
Weidenmann, Kay
TUE-4_VEN_3.18-09, THUR-1_NAP_2.0108, PO-2-42, PO-3-38, PO-3-60, PO-4-4,
PO-5-29, PO-5-30, PO-5-34
Witowska, Kamila
PO-2-27
Yang, Lei
TUE-1_MUC_3.01-18
Zhang, Jingjing
MON-2_BRU_2.02-08, PO-2-17
Witschel, Bernhard
PO-5-21
Yang, Liu
Zhang, Xiao-Chong
MON-1_NAP_2.06-02
Wittich, Hans
MON-4_MUC_3.01-15,
MON-4_MUC_3.01-15, PO-2-32
TUE-1_ING_7.02-01, TUE-2_ING_7.02-04,
TUE-4_BRU_2.14-06, TUE-4_ING_7.02-13,
WED-2_NAP_2.03-09
Zhang, Yi
PO-2-44, PO-5-33
Woigk, Wilhelm
TUE-4_BRI_2.04-05, WED-2_BRI_2.04-14
Yang, Qingda
TUE-2_MUC_3.01-22
Zhang, Yiying
TUE-3_NAP_2.06-29
Wolf, Klaus
MON-3_BOR_5.02-01,
THUR-1_VEN_3.17-10
Yang, Rui
TUE-3_BIA_3.12-02
Zhang, Yumin
PO-2-07
Yang, Zhenyu
TUE-3_VEN_3.18-01
Wolf, Michel
WED-1_VEN_3.18-10
MON-3_BRI_2.07-11,
WED-4_ATH_1.03-02, PO-2-13
Zhang, Zhinan
Zhang, Zhong
WED-2_NAP_2.03-11
Wolfahrt, Markus
TUE-4_BRI_2.04-06,
THUR-2_BUD_3.10-23, PO-3-62
Yang, Zhichao
PO-5-28
Zhao, Tian
WED-2_STO_3.20-07
Yankin, Andrey
PO-3-34
Zhao, Xinming
MON-2_BRU_2.02-08
Wolfrum, Johannes
TUE-1_BRU_2.10-01
Yao, Zhang
PO-2-13, PO-6-04
Zhao, Yingjun
WED-2_AUG_4.03-05
Wollmann, Tino
WED-1_VEN_3.18-11
Yarza Sobral, Pablo
WED-4_ATH_1.03-01
Zhao, Yun-Hong
MON-4_BRI_2.07-17
Weidinger, Herbert
THUR-2_LON_5.05-04
Weidinger, Sebastian
MON-3_ATH_1.01-12
Weiland, Frank
MON-3_ATH_1.01-10,
WED-2_NAP_2.03-10
Weiler, Thomas
TUE-1_LON_5.06-11
Wolter, Herbert
PO_1-12
Yeh, Fang-Yao
WED-3_BOR_1.05-02
Zheng, Qing
MON-3_SEV_3.07-09
Weimer, Christian
MON-4_ATH_1.01-16,
WED-1_BOR_5.12-11, WED-4_STG_5.0406, WED-4_STG_5.04-07
Wolverson, Daniel
MON-1_BRI_2.07-01
Yi, Jin Woo
PO-2-09
Zheng, Qingbin
MON-2_BRI_2.07-04
Wong, Joanna C. H.
TUE-2_STG_5.09-22
Yi, Kai
WED-3_BRU_2.12-11, PO-5-33
Zherebtcov, Dmitry
PO-2-43
Wong, Tsz-ting
TUE-2_ATH_1.01-21
Yin, Junwei
Zhou, Eric
Woo, Changsu
PO-3-26
THUR-1_BOR_5.10-01,
THUR-1_BOR_5.10-02
MON-1_ATH_1.01-02, MON-3_MUC_3.0110, MON-4_SEV_3.03-05
Wruck, Lorenz
TUE-3_AUG_4.05-03
Yip, Ming-Chuen
PO-2-38
Zhou, Gang
PO-2-50
Wu, Kuang-Chong
TUE-4_SEV_3.03-21
Yokota, Rikio
PO-2-48
Zhou, Jin
PO-3-46
Wu, Lin-Zhi
WED-4_VEN_3.17-05
Yokozeki, Tomohiro
Zhou, Lin
TUE-2_VEN_3.06-23
Wu, Pai-Hsuan
PO-2-30
MON-3_BRU_2.02-10, MON-3_STO_3.2106, WED-3_BRU_2.12-09
Zhou, Xiang
PO-3-64
Wu, Xun
WED-3_SEV_3.22-12
Yoneyama, Satoru
MON-4_ATH_1.01-15, PO-3-21
PO-2-07
Wu, Ying
MON-1_BRI_2.07-03, MON-2_BRI_2.07-04
Yong, Ming Shyan
Zhou, Yufeng
TUE-4_BRI_2.04-07
MON-2_MUC_3.01-07
Wu, Zhanjun
TUE-1_MUC_3.01-18
York, Christopher
Ziąbka, Magdalena
MON-1_SEV_3.07-03
Zidi, Mondher
WED-3_STO_3.20-12
Wucher, Benoit
MON-3_BOR_5.02-03
Yoshida, Masashi
PO-2-31
MON-2_BRU_2.02-05
Wuebben, T.
TUE-1_STG_5.09-19
Yoshimura, Akinori
Ziegmann, Gerhard
MON-4_ATH_1.01-15, PO-3-21
TUE-1_ATH_1.01-18
Wuzella, Guenter
TUE-4_BRI_2.04-06
Youk, Ji Ho
Zimmer, F.
WED-4_NAP_2.01-07
TUE-4_SEV_3.03-20
Wysocki, Maciej
MON-4_BRU_2.02-17
Young, Robert
Zimmermann, Kristian
MON-1_BRI_2.07-01, MON-1_RHO_3.2301, MON-4_BRI_2.07-13
Zimmermann, T.
TUE-2_STG_5.09-23
Xavier, José
MON-2_SEV_3.07-08, MON-4_BIA_3.11-17
Young, Trevor M.
TUE-3_ATH_1.04-04
Zink, Dennis
WED-2_RHO_3.16-02
Weinzierl, Matthias
THUR-1_ATH_1.08-02
Weiß, Lennart
TUE-2_BIA_3.11-23
Weißenborn, Oliver
MON-1_AUG_4.02-02
Welch, Stephen
WED-2_BRU_2.12-06
Welemane, Hélène
MON-4_AUG_4.01-02
Wellhausen, Christian
MON-3_ATH_1.01-11
Wellnitz, Jörg
WED-1_ATH_1.02-07
Wells, Garry
TUE-2_VEN_3.06-25
Welters, Tim
WED-4_STO_3.20-13
Werner, Sven
MON-4_STO_3.15-01
Westermeier, Anna
WED-3_ING_6.02-04
Westin, Mikael
WED-3_SEV_3.22-10
Wetzel, Bernd
TUE-2_NAP_2.06-25,
THUR-1_STO_3.20-16
Wevers, Martine
MON-4_VEN_3.06-15,
TUE-2_BUD_3.05-07
Xi, Siyuan
MON-2_BRI_2.07-04
Yousefi, J.
PO-5-25
Zink, Thierry
MON-2_ATH_1.01-04
Xi, Xinxin
THUR-1_BOR_5.10-03
Yu, HaNa
Zitoune, Redouane
Wi, Seunghwan
PO-2-47
Xian, Guijun
WED-4_BOR_1.05-06
TUE-2_BRI_2.08-04, WED-1_ING_7.02-18,
WED-2_SEV_3.22-08, PO-5-32
WED-3_STO_3.20-12, THUR-2_BOR_5.1004, THUR-2_BOR_5.10-07
Wian, Danna
WED-3_BRU_2.12-09
Xiao, Jiayo
MON-3_SEV_3.07-09
Yu, Jiali
WED-2_SEV_3.22-06
Zscheyge, Matthias
WED-3_MUC_3.02-15
Wiedemann, Martin
MON-4_ING_6.03-02
Xiong, Chunyang
TUE-1_MUC_3.01-17
Yu, Pengfei
TUE-3_MUC_3.01-25
Zu, Lei
THUR-1_ATH_1.08-01
Wiedemann, Sebastian
WED-2_VEN_3.18-15
Xiong, Hu
MON-3_VEN_3.06-12
Yu, Tian-Hong
WED-4_MUC_3.02-16
Zucchelli, Andrea
MON-1_NAP_2.06-01
Wiegand, Jens
TUE-1_VEN_3.06-20
Xiong, Jian
WED-3_VEN_3.17-04
Yu, Woong-Ryeol
Zuiko, Valerii
PO-3-12, PO-4-2
Wierach, Peter
MON-3_NAP_2.06-09, MON-4_ING_6.0302, WED-3_BRU_2.12-08
MON-4_BUD_3.04-16,
WED-4_NAP_2.01-07
Xiong, Shuai
MON-2_BRI_2.07-04
Zurbitu, Javier
WED-2_STO_3.20-06,
THUR-1_STO_3.20-17
Xiong, Wei
WED-3_STO_3.20-10
Xu, Fei
Xu, Jian
Wildemann, Valery E.
PO-3-34, PO-3-44
Wilhelmsson, Dennis
PO-3-20
Yudhanto, Arief
MON-3_MUC_3.01-11,
TUE-2_MUC_3.01-20
Zwick, M.
MON-1_STG_5.09-03
WED-2_MUC_3.02-07
Yueh, Heng-I
PO-2-30
Zympeloudis, Evangelos
TUE-2_LON_5.06-14
MON-3_VEN_3.06-11
Yüksel, Ferhat
TUE-3_VEN_3.18-04
25-28 June 2018, Athens/Greece
ATHENS INTERNATIONAL CONFERENCE CENTRE – MEGARON
Applied Mechanics And Vibrations Laboratory
University Of Patras, Dept Of Mechanical Engineering And Aeronautics
picture: 123rf.de
Under the patronage of:
103
26-30th June 2016, Munich/Germany
IMPRINT
MAI Carbon Cluster Management GmbH · c/o Carbon Composites e. V. · Am Technologiezentrum 5 · 86159 Augsburg · Phone: +49 (0) 8 21/26 84 11-10 · Fax: +49 (0) 8 21/26 84 11-09 · e-mail: info@mai-carbon.de
District Court Augsburg · HRB 27065 · Chairman: Prof. Klaus Drechsler (TUM LCC) · Managing Director of MAI Carbon Department: Alexander Gundling
design & implementation:
www.bestmarke-agentur.de
title picture: shutterstock.de
www.eccm17.org
Under the patronage of:
Organised by: