Fundamentals and Applications
of Nanomanufacturing
ORGANIZED BY
International Society for Nanomanufacturing (ISNM)
State Key Laboratory of Precision Measuring Technology & Instruments, Tianjin University
State Key Laboratory of Ultra-precision Machining Technology, The Hong Kong Polytechnic University
Mdtp Optics Co., Ltd. Nanjing
National Jiangning Economic and Development Zone Science and Creative Park
ISNM Winter School Council
President:
F. Z. Fang, China
Member:
Y. B. Guo, USA
H. Huang, Australia
J. Luo, UK
P. Zhu, China
W. Lin, Japan
H. Ohmori, Japan
O. Riemer, Germany
Organizing Committee
Chairman:
X. Jiang
B. Zhang
Member:
Z. Zhang
Y. Zhang
REGISTRATION
Package Type
Academic
Students
Early Registration
Payment Deadline:
December 1st, 2012
$1,000
$600
CONTACT
Zhiguo Zhang
Tel: +86 18652984281
E-mail: zingozhang@gmail.com
Normal Registration
Payment Deadline:
Before Arrival
$1.200
$800
PROGRAM
Date
28th Jan
29th Jan
30th Jan
31st Jan
1st Feb
2nd Feb
3rd Feb
-Opening Address
-Manufacturing in
nano accuracy and
nano scale
-ELID,
Nanoprecision,
Micro and
Ultrafabrication
Technologies
(2)
-Design, Fabrication
and Measurement
of Freeform Optics
(1)
-Fabrication,
Characterization,
and Functions of
Bulk Nanostructured
Materials
(1)
-Microsystems
Technologies
(2)
-Tourism
-Tourism
Time
8:30-9:30
9:45-10:40
10:50-11:50
- Ultraprecision
Machining
Processes
(1)
14:00-15:00
Tourism(*):
2nd Feb：
Linggu Buddhist Temple; Xiaoling Tomb of the Ming Dynasty;
The Mausoleum of Dr. Sun Yat-sen;
Nanjing Confucius Temple; Qinhuai River.
3rd Feb:
The famous pottery culture spot Yixing
Yixing “the sea of bamboo” scenic spot
CONFERENCE VENUE
The lectures will mainly be held at the Kechuang Garden Conference Room.
LECTURES
Lecture title: ELID, Nanoprecision, Micro and Ultrafabrication Technologies
Lecturer: Hitoshi Ohmori
Abstracts: ELID Grinding which enables mirror surface machining for brittle materials, starts to
produce nanoprecision fabrication. Nanoprecision micromechanical fabrication technologies which
are realized on the basis of ELID grinding and ultraprecision cutting, are also increasingly applied to
various fields. Ultrafabrication to develop large optics and molds is recently becoming important not
only for Physical but also for Environmental research area. In this lecture, those technological
approach will be introduced.
Biography: H. Ohmori got his Dr. Eng degree from University of Tokyo in 1991. He is currently
working as a professor in the Graduate School of Science and Engineering of Saitama University and
a chief scientist of Ohmori Materials Fabrication Laboratory of RIKEN. Dr. Ohmori's areas of research
interest include ultraprecision, ultrafine, nanoprecision, and ultra-smooth machining processes,
required for the fabrication of advanced functional devices such as optical and electronic
components.
Lecture title: Design, Fabrication and Measurement of Freeform Optics
Lecturer: Chi-Fai Cheung
Abstracts: Aspheric and freeform optical components are critical components used in photonics,
telecommunication products such as mobile phone cameras, laser printers, hand-held scanners, LED
backlight modules, etc. For the fabrication of freeform optics, ultra-precision freeform machining is
an enabling technology that allows the designed optics to be fabricated with sub-micrometer form
accuracy and nanometric surface finish. This lecture aims to disseminate the latest know-how and
practices in the design, fabrication, and measurement of freeform optics for imaging as well as
illumination applications. Practical examples of design and fabrication on industrial optical products
are also demonstrated.
Biography: Benny C.F. Cheung is Professor in the Department of Industrial and Systems Engineering
and an Associate Head of State Key Laboratory of Ultraprecision Machining Technology at The Hong
Kong Polytechnic University. His research interests include ultraprecision machining, precision
metrology, advanced optics manufacturing, etc. Prof. Cheung has authored more than 200 research
papers in various refereed journals and international conferences. He has also received numerous
research awards including Joseph Whitworth Prize from IMechE, UK, etc.
Lecture title: Fabrication, Charactrization, and Functions of Bulk Nanostructured Materials
Lecturer: Yuebin Guo
Abstract: Bulk nanostructured materials have superior physical and mechanical properties
properties and wide engineering applications. This seminar focuses on the fabrication,
charactrization, and functions of bulk nanostructured materials. (1) Bulk nanostructured materials
firstly introduced methods of severe plastic deformation (SPD). (2) Nanoindentation methods and
mechanics are detailed to determine nanohardness, modulus, and fracture toughness. (3) Examples
will be given to demonstrate their unique applications including corrosion resistance.
Biography: Y. B. Guo is a professor of Mechanical Engineering at The University of Alabama, USA. His
research has focused on the integration of multiscale manufacturing processes, surface integrity, and
functionality for various engineering applications. Dr. Guo has published over 200 peer reviewed
journal and conference papers and has received funding from NSF, DOE, DOD, DOT, NSFC, and
Humboldt Foundation as well as through numerous industrial companies.
LECTURES
Lecture title: Microsystems Technologies
Lecturer: Jack Luo
Abstracts: Microsystems is an emerging technology which may provide unique and novel functions
that macrodevices are unable to do such as a microactuator to manipulate components with sizes
from micro to nanometres with the precision down to nanometres. This lecture will introduce the
concept of microsystems, various mechanisms utilized for fabrication of microsystems such as
electrostatic force, bimorph structure, thermal actuation, surface force etc, the scaling factor and
processing technologies for fabrication of various microsystems.
Biography: J. Luo is a professor in MEMS at the Centre for Material Research and Innovation (CMRI),
University of Bolton. His current research interests focus on microsystems and sensors for
biotechnology and healthcare applications, and smart and nanomaterials electronic nanodevices
and renewable energy technology. He has over 250 publications in peer review international
journals and proceeding of international conferences.
Lecture title: Ultraprecision Machining Processes
Lecturer: Oltmann Riemer
Abstracts: Ultraprecision machining processes are widely used for the manufacture of optical and
high precision components. Depending on the intended application machining of ductile or brittle
materials with highest surface finish and surface integrity is required. Diamond turning and diamond
milling processes are usually applied for the machining of ductile metals and plastics The lecture will
cover the basics of ultra precision machining. Further, advanced aspects of diamond machining will
be discussed along a series of case studies.
Biography: Dr. O. Riemer is the department head of LFM Laboratory for Precision Machining at
Bremen University. His Present research efforts include the areas of ultra precision and micro
machining processes, i.e. specifically diamond turning and diamond milling processes, precision
grinding and polishing as well as micro machining technologies. Dr. Riemer is author or co-author of
more than 130 publications including peer reviewed journals, conference proceedings and
magazines.
Lecture title: Nano Accuracy and Nano Scale Manufacturing
Lecturer: Fengzhou Fang
Abstracts: Nano accuracy and nano scale manufacturing has become one of the most important
areas in manufacturing field. In this lecture, some latest research development both in nano
accuracy and nano scale manufacturing will be presented. Freeform optics and nano optics will be
taken as typical applications in nano accuracy and nano scale manufacturing. Additionally,
Fabrication of nano optics will be included in the lecture.
Biography: F. Z. Fang is currently working as a professor in the State Key Laboratory of Precision
Measuring Technology & Instruments, Centre of MicroNano Manufacturing Technology at Tianjin
University. He has been involved as a project leader or principal investigator in more than 80 projects
funded by government or industrial partners. Dr Fang is the chief scientist of the national key
program (973) of “manufacturing of freeform optics”, a fellow of the International Academy for
Production Engineering (CIRP) and the president of the International Society for Nanomanufacturing
(ISNM).