Add to collection(s) Add to saved
  1. No category

ADMISSION AND ACCOMMODATION

advertisement 
SchröderLynch HuberLupascu
Schröder
Fiebig
BhattacharyaHuber
SchröderLynch HuberLupascu
Schröder
Fiebig
BhattacharyaHuber
A limited number of participants from universities and research
centres who are not supported by their own institutions can
be offered board and/or lodging in a reasonably priced hotel.
Requests should be sent to CISM Secretariat by July 8,
2014 along with the applicant's curriculum and a letter of
recommendation by the head of the department or a supervisor
confirming that the institute cannot provide funding. Preference
will be given to applicants from countries that sponsor CISM.
Information about travel and accommodation is available on
our web site, or can be mailed upon request.
Please note that the centre will be closed for summer vacation
the first three weeks in August.
ACADEMIC YEAR 2014
The Peregrine Session
Centre International des Sciences Mécaniques
International Centre for Mechanical Sciences
Schröder
Fiebig
14.00 - 14.45
14.45 - 15.30
16.00 - 16.45
16.45 - 17.30
Fiebig
11.45 - 12.30
Lynch
Bhattacharya
Schröder
Fiebig
Bhattacharya
Fiebig
Lynch
11.00 - 11.45
HuberLupascu
Bhattacharya Lynch
9.45 - 10.30
Lupascu
The 700,00 Euro registration fee includes a complimentary
bag, four fixed menu buffet lunches (Friday subject to
numbers), hot beverages, downloadable lecture notes and
wi-fi internet access.
FERROIC FUNCTIONAL
MATERIALS: EXPERIMENT,
MODELING AND SIMULATION
Advanced School
coordinated by
Jörg Schröder
University of Duisburg-Essen
Germany
Doru C. Lupascu
University of Duisburg-Essen
Germany
For further information please contact:
HuberLupascu
Lynch
A message of confirmation will be sent to accepted
participants. If you need assistance for registration please
contact our secretariat.
9.00 - 9.45
Bhattacharya
Applicants must apply at least one month before the beginning
of the course. Application forms should be sent on-line through
our web site: http://www.cism.it or by post.
Lupascu
September 12
September 10
September 11
September 9
September 8
Tuesday WednesdayThursday Friday
Monday
TIME
TIME TABLE
(Registration on Monday at 8:30)
ADMISSION AND ACCOMMODATION
CISM
Palazzo del Torso
Piazza Garibaldi 18
33100 Udine (Italy)
tel. +39 0432 248511 (6 lines)
fax +39 0432 248550
e-mail: cism@cism.it
Udine September 8 - 12 2014
FERROIC FUNCTIONAL MATERIALS: EXPERIMENT, MODELING AND SIMULATION
Functional materials play a key
role in many modern technical
devices ranging from consumer
market items to applications in
high-end equipment for automobile,
aircraft and spacecraft, military,
and information technology.
Among functional materials,
smart materials represent a
class that transforms one basic
physical property into another.
The development of devices
utilizing smart materials, as well
as their testing, are generally very
expensive. Therefore, considerable
effort has been made to develop
modeling tools that allow bypassing
many of the experimental steps
previously required in design.
The most important smart materials
are certainly ferroelectrics (coupling
between polarization and strain),
ferromagnets (coupling between
magnetization and strain), shapememory alloys (coupling between
temperature and strain), and the
recently discovered magnetoelectric multiferroics (coupling
magnetization and polarization).
In particular, magnetoelectric
multiferroics, that combine the
mutual controllability of magnetic
and electric state variables in one
single material, are of the greatest
interest in the development of
multifunctional devices devoted
to new advanced applications. In
single-phase multiferroics, on the
other hand, the interaction between
the magnetic and electric fields is
generally weak and, consequently,
composite materials consisting
of ferroelectric and ferromagnetic
phases become relevant. The
experimental preparation and
characterization of composite
materials, as well as their
constitutive description based on
homogenization strategies, are key
challenges for the optimization of
such magneto-electric composites.
Furthermore, the coupled and
non-linear behavior of the
individual phases, as well as their
interactions, have a significant
impact on the overall performance
of the composite material.
The development of new
multifunctional devices made
from ferroics is based on a
comprehensive understanding
of both the experimental and
theoretical details of these
materials. Thus, the lectures will
cover experiments and theory
in the fields of ferroelectrics,
ferromagnets, ferroelastics,
and multiferroics. The range
of topics covered will include
experimental preparation and
characterization of magnetoelectric multiferroics, the modeling
of ferroelectric and ferromagnetic
materials as well as of shapememory alloys, the formation of
ferroic microstructures and their
continuum-mechanical modeling,
computational homogenization,
and the algorithmic treatment in the
framework of numerical solution
strategies.
The course is addressed to
doctoral students and postdoctoral
researchers in civil and mechanical
engineering, materials science,
physics and applied mathematics
as well as industrial researchers.
After the course participants
will have a basic knowledge in
experiments and theory in the
framework of ferroic materials.
A main focus will be on state-ofthe-art experimental methods and
advanced modeling techniques.
These notions are essential
to qualify young scientists for
high-quality research and the
development of innovative products
and applications. Up to now, there
are neither adequate textbooks nor
advanced courses at research- or
university-level available in this
field. Thus, the aim of this CISM
course is to fill such a gap and
we are convinced that it will be
successful in doing this.
Hwang S.C., Lynch C.S. &
McMeeking R.M.: Ferroelectric/
ferroelastic interactions and a
polarization switching model,
Acta metallurgica et materialia
43(5):2073–2084, 1995.
Schroeder J. & Keip M.-A.:
Two-scale homogenization of
Kaushik Bhattacharya - California Institute of Technology,
Pasadena, CA, USA
6 lectures on:
Shape-memory alloys – phase transformations, domains, grains,
properties, domain-structure evolution, scale bridging, macroscopic
modeling.
Manfred Fiebig - ETH Zurich, Switzerland
6 lectures on:
Multiferroics – structure, properties and perspectives,
atomistic observations, heterostructures for microelectronics
applications, Landau theory, strain-induced multiferroicity.
John Huber - University of Oxford, UK
6 lectures on:
Ferroelectrics – experiments, microstructure evolution, laminate
theory, oriented ferroelectric films, modeling and simulation of domain
structure evolution.
Doru C. Lupascu - University of Duisburg-Essen, Germany
6 lectures on:
Experiments – experimental methods for ferroelectrics,
ferromagnets and composite multiferroics, mechanical, thermal,
ferroelectric and ferromagnetic properties, making of a material.
Christopher Lynch - University of California, Los Angeles, CA, USA
6 lecture on:
Ferromagnets, ferroelectrics, strain mediated magnetoelectricity –
experiments, phase field modeling, ferroelectric/magnetostrictive
domain wall interactions, substrate constraints.
PRELIMINARY SUGGESTED READINGS
Bhattacharya K.: Microstructure and
Martensite: Why it Forms and
how it Gives Rise to the Shapememory Effect, Oxford University
Press, 2003.
Fiebig M.: Revival of the
magnetoelectric effect, Journal
of Physics D: Applied Physics
38:R123–R152, 2005.
INVITED LECTURERS
electromechanically coupled
boundary value problems,
Computational Mechanics
50(2):229–244, 2012.
Tsou N.T. & Huber J.E.:
Compatible domain structures
and the poling of single crystal
ferroelectrics, Mechanics of
Materials 42: 740–753, 2010.
Shvartsman V.V., Alawneh F.,
Borisov P., Kozodaev D. & Lupascu
D.C.: Converse magnetoelectric
effect in CoFe2O4–BaTiO3
composites with a core–shell
structure, Smart Materials and
Structures 20(7):075006, 2011.
Jörg Schröder - University of Duisburg-Essen, Germany
6 lectures on:
Computational homogenization – constitutive modeling of
ferroelectric/magnetostrictive materials, magneto-electric composites,
FE2-method, determination of effective properties.
LECTURES
All lectures will be given in English. Lecture notes can be downloaded
from the CISM web site, instructions will be sent to accepted participants.
FERROIC FUNCTIONAL MATERIALS: EXPERIMENT,
MODELING AND SIMULATION
Udine, September 8 - 12, 2014
Application Form
(Please print or type)
Surname ____________________________________________
Name _______________________________________________
Affiliation_____________________________________________
Address_____________________________________________
___________________________________________________
E-mail______________________________________________
Phone____________________Fax_______________________
Method of payment upon receipt of confirmation (Please check the box)
The fee of Euro 700,00 includes IVA/VAT tax and excludes bank charges
❏I shall send a check of Euro _______________________________________
❏ Payment will be made to CISM - Bank Account No. 094570210900,
VENETO BANCA - Udine (CAB 12300 - ABI 05035 - SWIFT/BIC VEBHIT2M - IBAN CODE IT46 N 05035 12300 09457 0210900).
Copy of the receipt should be sent to the secretariat
❏ I shall pay at the registration counter with check or VISA Credit Card (Mastercard/Eurocard, Visa, CartaSì)
IMPORTANT: CISM is obliged to present an invoice for the above sum.
Please indicate to whom the invoice should be addressed.
Name ______________________________________________________________________________________________________________
Address ___________________________________________________________________________________________________________
________________________________________________________________________________________________________________
_______________________________________________________________________________________________________________
C.F.*_________________________________________________________________________________________________________________
VAT/IVA* No.__________________________________________________________________________________________________
(*) Only for EU residents or foreigners with a permanent business activity in Italy.
Only for Italian Public Companies
❏ I ask for IVA exemption (ex law n. 537/1993 - art. 14 comma 10).
Privacy policy: I understand that data received via this form will be used only to
provide information about CISM and its activities, within the limits set by the Italian
legislative decree no. 196/2003 and subsequent amendments.
Complete information on CISM’s privacy policy is available at www.cism.it.
I have read the "Admission and Accommodation" terms and conditions and agree.
Date _______________
Signature
Related documents
Multiferroicity in GaFeO3 - Forschungszentrum Jülich
Multiferroicity in GaFeO3 - Forschungszentrum Jülich
CISM Exam Preparation
CISM Exam Preparation
WINTHROP UNIVERSITY ACADEMIC COUNCIL MINUTES September 14, 2001
WINTHROP UNIVERSITY ACADEMIC COUNCIL MINUTES September 14, 2001
Nanoscale Performance of Functional Ceramics and Solar Cells Bryan D. Huey
Nanoscale Performance of Functional Ceramics and Solar Cells Bryan D. Huey
Ground Team Leader Course “ICS, CISM & some other letters”
Ground Team Leader Course “ICS, CISM & some other letters”
COST Program Overview
COST Program Overview
BIOGRAPHY OF AMAR BHATTACHARYA Mr. Amar Bhattacharya is
BIOGRAPHY OF AMAR BHATTACHARYA Mr. Amar Bhattacharya is
Download
advertisement