TABLE OF CONTENTS

TABLE OF CONTENTS
Part I
Conference Schedule............................................................................................................................ 3
PartⅡ Invited Keynote Speakers ....................................................................................................................... 9
Keynote Speaker: Prof. Fu-sui Liu .................................................................................................................... 9
Keynote Speaker: Prof. Sigitas Tamulevičius ................................................................................................... 9
Keynote Speaker: Dr. Iam Choon Khoo ......................................................................................................... 10
Keynote Speaker: Dr. Sammy L.I. Chan ......................................................................................................... 11
Keynote Speaker: Prof. Ian Baker .................................................................................................................. 11
Keynote Speaker: Dr. Alexander Khotsianovsky............................................................................................ 12
Keynote Speaker: Dr. Lucas da Silva .............................................................................................................. 13
Keynote Speaker: Dr. Mitjan Kalin................................................................................................................. 14
Keynote Speaker: Prof. Robert Cottis ............................................................................................................ 14
Keynote Speaker: Prof. Wonyong Choi ......................................................................................................... 15
Keynote Speaker: Prof. Hassan Mahfuz ........................................................................................................ 16
Keynote Speaker: Dr. Willi Pabst ................................................................................................................... 16
Keynote Speaker: Dr. Katarzyna Grabowska ................................................................................................. 17
Keynote Speaker: Prof. Ali Adibi .................................................................................................................... 17
Keynote Speaker: Prof. Spas Dimitrov Kolev ................................................................................................. 18
Keynote Speaker: Dr. Manoj Gupta............................................................................................................... 19
Keynote Speaker: Dr. Changtai Xia ................................................................................................................ 19
Part Ⅲ Invited Keynote Speeches................................................................................................................... 21
Keynote Speech 1 New Times of Material Science and Engineering --Advantages of CMR Manganites over
Semiconductors and Superconductors ......................................................................................................... 21
Keynote Speech 2 Plasma Deposition of Diamond Like Carbon Based Nanocomposites for Optical and
Electrical Applications ................................................................................................................................... 21
Keynote Speech 3 Nematic and Blue Phase Liquid Crystals for Optical-Terahertz-Microwave Advanced
Applications ................................................................................................................................................... 22
Keynote Speech 4 Energy Storage for Remote Area Power Supply Systems ................................................ 23
Keynote Speech 5 Microstructures and Mechanical Properties of FeNiMnAl Alloys ................................... 23
Keynote Speech 6 Fretting Fatigue Life Prediction for State-of-the-art Materials and Structures ............... 24
Keynote Speech 7 Recent Developments in Adhesive Bonding .................................................................... 25
1
Keynote Speech 8 Importance of Surfaces and Interfaces for Functional Tribological Properties of
Materials........................................................................................................................................................ 25
Keynote Speech 9 The Corrosion Passport – What Engineers Need to Know about Corrosion ................... 26
Keynote Speech 10 Metal Oxide Semiconductors with Interfacial Heterojunctions for Solar Photocatalytic
and Photosynthetic Applications ................................................................................................................... 26
Keynote Speech 11 High Energy Fibers through Nanoparticle Reinforcement in Textile Polymers ............. 27
Keynote Speech 12 Effective Properties of Isotropic Porous Ceramics – from Rigorous Bounds to
Cross-property Relations ............................................................................................................................... 28
Keynote Speech 13 From Electromagnetic Field Suppressing To Energy Harvesting ................................... 29
Keynote Speech 14 A Novel CMOS-compatible Hybrid Material Platform for Integrated Nanophotonics .. 29
Keynote Speech 15 Polymer Inclusion Membranes – Advanced Materials for Extractive Separation and
Novel Templates for Metal Nanoparticle Synthesis ...................................................................................... 30
Keynote Speech 16 Magnesium Based Nanocomposites: Light Weight Materials of the Future................. 31
Keynote Speech 17 Recent Developments on Wide Band Gap Semiconductor β-Ga2O3 ............................. 31
Part Ⅳ Oral Session ........................................................................................................................................ 32
Part Ⅴ Poster Session ..................................................................................................................................... 35
Part Ⅵ Hotel Information ............................................................................................................................... 38
Part Ⅶ Tourism ............................................................................................................................................. 40
2
Part I Conference Schedule
Oct.20- Oct.22, 2014
Time
Activity
08:00-19:00
Location
Registration
Shanghai Royalton Hotel
Tuesday Morning, Oct.21
Time
Location: 5 th floor, Crown Hall
Activity
09:30-10:10
Opening Ceremony
Keynote Speech 1: New Times of Material Science and Engineering--Advantages of
CMR Manganites over Semiconductors and Superconductors
Prof. Fu-sui Liu
Keynote Speech 2: Plasma Deposition of Diamond Like Carbon Based
Nanocomposites for Optical and Electrical Applications
Prof. Sigitas Tamulevičius
Keynote Speech 3: Nematic and Blue Phase Liquid Crystals for
Optical-Terahertz-Microwave Advanced Applications
Dr. Iam Choon Khoo
10:10-10:20•
Pose for a Group Photo
10:20-10:40•
Coffee Break
08:00-08:10•
08:10-08:50•
08:50-09:30
10:40-11:20
11:20-12:00•
Keynote Speech 4: Energy Storage for Remote Area Power Supply Systems
Dr. Sammy L.I. Chan
Keynote Speech 5: Microstructures and Mechanical Properties of FeNiMnAl Alloys
Prof. Ian Baker
Tuesday Noon, Oct.21
12:00-13:30
Location: 2 nd floor, Hong Kong Hall
Buffet Lunch
Tuesday Afternoon, Oct.21
Time
14:00-14:40
14:40-15:20
15:20-16:00
16:00-16:15
Location: 5 th floor, Crown Hall
Activity
Keynote Speech 6: Fretting Fatigue Life Prediction for State-of-the-art Materials and
Structures
Dr. Alexander Khotsianovsky
Keynote Speech 7: Recent Developments in Adhesive Bonding
Dr. Lucas da Silva
Keynote Speech 8: Importance of Surfaces and Interfaces for Functional Tribological
Properties of Materials
Dr. Mitjan Kalin
Coffee Break
3
16:15-17:05
17:05-17:45
Keynote Speech 9: The Corrosion Passport – What Engineers Need to Know about
Corrosion
Prof. Robert Cottis
Keynote Speech 10: Metal Oxide Semiconductors with Interfacial Heterojunctions
for Solar Photocatalytic and Photosynthetic Applications
Prof. Wonyong Choi
Tuesday Evening, Oct.21
Time
Activity
18:00-19:00
19:00-19:40
19:00-21:30
Location
2nd floor, Hong Kong Hall
Buffet Dinner
Keynote Speech 11: High Energy Fibers through
Nanoparticle Reinforcement in Textile Polymers
Prof. Hassan Mahfuz
Oral Presentation
3rd floor, Royal HallⅡ
(Detailed information please see Part Ⅳ Oral Session)
Wednesday Morning, Oct.22
Time
Location: 3rd floor, Royal HallⅡ
Activity
09:20-10:00
Keynote Speech 12: Effective Properties of Isotropic Porous Ceramics – from
Rigorous Bounds to Cross-property Relations
Dr. Willi Pabst
Keynote Speech 13: From Electromagnetic Field Suppressing To Energy Harvesting
Dr. Katarzyna Grabowska
Keynote Speech 14: A Novel CMOS-compatible Hybrid Material Platform for
Integrated Nanophotonics
Prof. Ali Adibi
10:00-10:20•
Coffee Break
08:00-08:40•
08:40-09:20
10:20-11:00
11:00-11:40•
Keynote Speech 15: Polymer Inclusion Membranes – Advanced Materials for
Extractive Separation and Novel Templates for Metal Nanoparticle Synthesis
Prof. Spas Dimitrov Kolev
Keynote Speech 16: Magnesium Based Nanocomposites: Light Weight Materials of
the Future
Dr. Manoj Gupta
Wednesday Noon, Oct.22
12:00-13:30
Location: 2 nd floor, Hong Kong Hall
Buffet Lunch
Wednesday Afternoon, Oct.22 (part A)
Time
14:00-14:40
Location: 3rd floor, Royal HallⅡ
Activity
Keynote Speech 17: Recent Developments on Wide Band Gap Semiconductor
β-Ga2O3
4
14:40-15:25
15:25-15:40
Dr. Changtai Xia
Oral Presentation(Detailed information please see Part Ⅳ Oral Session)
Coffee Break
15:40-18:00
Oral Presentation(Detailed information please see Part Ⅳ Oral Session)
Wednesday Afternoon, Oct.22 (part B)
Time
Location: 3rd floor, Royal HallⅠ
Activity
Oral Presentation
(Detailed information please see Part Ⅳ Oral Session)
14:00-18:00
Wednesday Afternoon, Oct.22 (part C)
Time
Location: 4th floor, Hugo Hall
Activity
Oral Presentation
(Detailed information please see Part Ⅳ Oral Session)
14:00-18:00
Wednesday Afternoon, Oct.22 (part D)
Time
14:00-18:00
Location: 4th floor, Dumas Hall
Activity
Poster Presentation
(Detailed information please see Part Ⅴ Poster Session)
Wednesday Evening, Oct.22
18:00-19:00
19:00-21:30
Location: 2 nd floor, Hong Kong Hall
Buffet Dinner
Depart from Royalton Hotel to Huangpu River Cruises
(Detailed information please see Part Ⅶ Tourism)
Thursday, Oct.23
07:30-18:00
Depart from Royalton Hotel to Zhouzhuang - Carton King Theme Restaurant for lunch
- Shanghai Global Financial Hub after lunch - The Old City God's Temple- go back to
the hotel after dinner
5
大会日程(中文版)
2014 年 10 月 20 日-22 日
时间
日程安排
08:00-19:00
注册报到
地点
美仑大酒店大厅
10 月 21 日,星期二上午
时间
日程安排
地点: 皇冠厅(5 楼)
09:30-10:10
开幕式
主题报告 1: New Times of Material Science and Engeneering--Advantages of CMR
Manganites over Semiconductors and Superconductors
报告专家: 刘福绥教授
主题报告 2: Plasma Deposition of Diamond Like Carbon Based Nanocomposites for
Optical and Electrical Applications
报告专家: Sigitas Tamulevičius 教授
主题报告 3: Nematic and Blue Phase Liquid Crystals for
Optical-Terahertz-Microwave Advanced Applications
报告专家: Iam Choon Khoo 博士
10:10-10:20•
与会代表集体合影
10:20-10:40•
茶歇
08:00-08:10•
08:10-08:50•
08:50-09:30
10:40-11:20
11:20-12:00•
主题报告 4: Energy Storage for Remote Area Power Supply Systems
报告专家: Sammy L.I. Chan 博士
主题报告 5: Microstructures and Mechanical Properties of FeNiMnAl Alloys
报告专家: Ian Baker 教授
10 月 21 日,星期二中午
时间
日程安排
12:00-13:30
自助午餐
地点
香港厅(2楼)
10 月 21 日,星期二下午
时间
14:00-14:40
14:40-15:20
15:20-16:00
日程安排
地点: 皇冠厅(5 楼)
主题报告 6: Fretting Fatigue Life Prediction for State-of-the-art Materials and
Structures
报告专家: Alexander Khotsianovsky 博士
主题报告 7:Recent Developments in Adhesive Bonding
报告专家: Lucas da Silva 副教授
主题报告 8: Importance of Surfaces and Interfaces for Functional Tribological
Properties of Materials
报告专家: Mitjan Kalin 博士
6
16:00-16:15
16:15-17:05
17:05-17:45
茶歇
主题报告 9: The Corrosion Passport – What Engineers Need to Know about
Corrosion
报告专家: Robert Cottis 教授
主题报告 10: Metal Oxide Semiconductors with Interfacial Heterojunctions for Solar
Photocatalytic and Photosynthetic Applications
报告专家: Wonyong Choi 教授
10 月 21 日,星期二晚上
时间
18:00-19:00
19:00-19:40
日程安排
地点
自助晚餐
香港厅(2 楼)
主 题 报 告 11: High Energy Fibers through Nanoparticle
Reinforcement in Textile Polymers
凯旋二厅(3 楼)
报告专家: Hassan Mahfuz 教授
口头报告
19:40-21:30
10 月 22 日,星期三上午
时间
日程安排
地点: 凯旋二厅(3 楼)
09:20-10:00
主题报告 12: Effective Properties of Isotropic Porous Ceramics – from Rigorous
Bounds to Cross-property Relations
报告专家: Willi Pabst 副教授
主题报告 13: From Electromagnetic Field Suppressing To Energy Harvesting
报告专家: Katarzyna Grabowska 博士
主题报告 14: A Novel CMOS-compatible Hybrid Material Platform for Integrated
Nanophotonics
报告专家: Ali Adibi 教授
10:00-10:20•
Coffee Break
08:00-08:40•
08:40-09:20
10:20-11:00
11:00-11:40•
主题报告 15: Polymer Inclusion Membranes – Advanced Materials for Extractive
Separation and Novel Templates for Metal Nanoparticle Synthesis
报告专家: Spas Dimitrov Kolev 教授
主题报告 16: Magnesium Based Nanocomposites: Light Weight Materials of the
Future
报告专家: Manoj Gupta 副教授
10 月 22 日,星期三中午
时间
日程安排
12:00-13:30
自助午餐
地点
香港厅(2楼)
10 月 22 日,星期三下午
时间
14:00-14:40
日程安排
地点: 凯旋二厅(3 楼)
主题报告 17: Recent Developments on Wide Band Gap Semiconductor β-Ga2O3
7
14:40-15:25
15:25-15:40
报告专家: Changtai Xia 研究员
口头报告
茶歇
15:35-18:00
口头报告
10 月 22 日,星期三下午
时间
日程安排
14:00-18:00
口头报告
地点: 凯旋一厅(3 楼)
10 月 22 日,星期三下午
时间
日程安排
14:00-18:00
口头报告
地点: 雨果(4 楼)
10 月 22 日,星期三下午
时间
日程安排
14:00-18:00
张贴报告
地点: 仲马厅(4 楼)
10 月 22 日,星期三晚上
时间
日程安排
地点
18:00-19:00
自助晚餐
香港厅(2 楼)
19:00-21:30
夜游黄浦江
10 月 23 日,星期四
07:30-18:00
上海一日游: 上海美仑大酒店--周庄---纸箱王主题餐厅就餐---上海环球金融中心--城隍庙--上海美仑大酒店
8
PartⅡ Invited Keynote Speakers
Keynote Speaker: Prof. Fu-sui Liu
Prof. Fu-sui Liu
Department of Physics, Peking University, China
Fu-sui Liu is engaged as full professor of department of physics of Peking University since 1985. He
was born in Shandong province in 1934, and graduated from Department of Physics in 1960. His
present research fields involve Superconductivity, Manganites, Non-Debye relaxation, and
Quantum theory. Since 1980 he has been abroad many times to different universities for academic
exchange. He is the author and co-author of several books as (1) Fu-sui Liu, “Quantum Mechanics
upon Theories”, (Nova, New York, 2013); (2) Fu-sui Liu, “Advanced Quantum Mechanics upon
Theories”, (Nova, New York, 2014); (3) Fu-sui Liu and Yu-min Hou, “General Theory of
Superconductivity”, (Nova, New York, 2008);(4) Editor: B. P. Martins, Contributors: Fu-sui Liu, et al.,
“New Topics in Superconductivity Research”, (Nova, New York, 2006); (5) Chong de-wei and Fu-sui
Liu, Green’s Function in Solid Physics. He has contributed to more than 135 journal papers.
Keynote Speaker: Prof. Sigitas Tamulevičius
Prof. Sigitas Tamulevičius
Member of the European Materials Research Society;
Physics Department, Kaunas University of Technology (KTU),
Republic of Lithuania
Sigitas Tamulevičius was born in Varena, Lithuania, in 1955. He has graduated Moscow Engineering
Institute of Physics on 1979 receiving diploma of engineer - physicist. In 1984 he has defended Ph.D.
9
Thesis in Physics ("Ion beam activated growth of thin solid films).Habil. (Dr.Sci.) thesis in Materials
Science by Sigitas Tamulevičius (1995) was related to the ion activated processes on the surfaces of
solids.
From 1996 he is a professor of the Physics Department at Kaunas University of Technology, head of
the scientific group, chairman of the Qualification Commission in Materials Science in the Kaunas
University of Technology,
From 2002 he is a member expert of Lithuania Academy of Science.
From 2001 he is a director of Institute of Physical Electronics of Kaunas University of Technology.
During the last years Sigitas Tamulevičius has spent period doing his research at the Royal Institute
of Technology (Sweden), Massachusets Institute of Technology (USA), Poitiers University (France).
He is a recipient of Fulbright scholarship of the Senate of USA (1995), American Physical Society
(1994), Lithuanian Science Prize winner (together with colleagues) (2000).
He has contributed to more than one hundred scientific publications and many scientific
conferences.
Keynote Speaker: Dr. Iam Choon Khoo
Dr. Iam Choon Khoo
William E. Leonhard Professor of Electrical Engineering, the
Pennsylvania State University, USA
Dr. Khoo is internationally known for his pioneering and leading work in liquid crystals, and in
nonlinear optical phenomena and applications. Since joining Penn State in 1984, he has established
and directed the Nonlinear Optics and Liquid Crystal Research Laboratory. Over the years, his
laboratory has received research funding from various Government agencies including:- the
National Science Foundation, Defense Advanced Research Projects Agency, Navy Air Development,
Air Force Office of Scientific Research, Air Force Phillips Laboratory, and the Army Research Office.
Prof. Khoo is a Fellow of the Optical Society of America, IEEE and the UK Institute of Physics. He has
previously served a three-year term as Vice President of Technical Affair for the IEEE-Lasers and
Electro-Optics Society and as Chair of the United States Advisory Committee/International
Commission for Optics of the US National Academies. He is the author, co-author of over 600
technical publications and several books on nonlinear optics and liquid crystal optical physics.
Ongoing research activities in his laboratory and collaborative research programs are centered on
nonlinear and electro- optical properties of liquid crystals and nano-structured novel refractive
metamaterials, and studies of optical wave mixings, optical switching and modulation, optical
limiting and sensor protection enabled by unique properties of these optical materials.
10
Keynote Speaker: Dr. Sammy L.I. Chan
Dr. Sammy L.I. Chan
School of Materials Science and Engineering
University of New South Wales, Australia
Sammy L.I. Chan started his career in Materials Engineering in England, where he received an
Honors BSc(Eng) in Metallurgy from Imperial College, and a PhD from the University of Cambridge.
After a year of postdoctoral fellowship there he joined National Taiwan University in 1986, first as
an associate professor, then a full professor. Chan moved to University of New South Wales,
Australia in 2003, and leads a research group on energy materials, corrosion engineering and metal
matrix composites. He publishes extensively in these areas, and has authored and co-authored over
150 papers in international journals and conferences, in addition to several book chapters on
energy materials. Chan is a Fellow of Institute of Materials (FIMMM) and Australian Institute of
Energy (FAIE). He is also a Chartered Scientist (CSci) and a Chartered Engineer (CEng). Chan took the
role of editor of Materials Chemistry and Physics in 2009. He also holds several honorary
professorial positions at other universities.
Keynote Speaker: Prof. Ian Baker
Prof. Ian Baker
Sherman Fairchild Professor of Engineering, Senior Associate
Dean for Academic Affairs, Thayer School of Engineering,
Dartmouth College, USA
Baker obtained both his B.A. and D. Phil. in metallurgy and science of materials from Oxford
University. He joined the Thayer School faculty in 1982 and has served as both Chair of the
Engineering Sciences Department and Director of the M.S. and Ph.D. programs, and currently
serves as the Senior Associate Dean for Academic Affairs. He is a Fellow of The Metals, Minerals and
11
Materials Society of A.I.M.E., the Materials Research Society, ASM International, and the Institute
of Metals, Materials and Mining (U.K.). Baker is a Chartered Engineer (U.K.), and is listed in the ISI
citation index of highly-cited Materials Scientists.
Baker's research focuses on both metals and ice. His most recent initiative involves the
development of iron nanoparticles for cancer treatment, either for localized magnetic
hyperthermia or as a thermal trigger for drugs delivered in vesicles. Additional ongoing projects in
metals research include developing a new series of high-strength magnetic materials. Magnets that
work and stay strong at high temperatures have many applications such as for power-generation
systems.
Keynote Speaker: Dr. Alexander Khotsianovsky
Dr. Alexander Khotsianovsky
Pisarenko Institute of Problems of Strength of the National
Academy of Sciences of Ukraine, Ukraine
Dr. Alexander O. Khotsianovsky graduated from the Kiev Polytechnical Institute with diploma of
mechanical engineering researcher, and continued his post-graduate studies at the Pisarenko
Institute of Problems of Strength of the National Academy of Sciences of Ukraine, then got his Ph.D
degree in 1990: Life Prediction of Structural Steels and Alloys under Fretting Fatigue for Fatigue
Crack Propagation Stage. During 1982 to 1996, he played a role as a research fellow at the Pisarenko
Institute of Problems of Strength of the National Academy of Sciences of Ukraine. He serves as a
research fellow at the Pisarenko Institute of Problems of Strength of the National Academy of
Sciences of Ukraine, Kiev since 2002.
Dr. Alexander O. Khotsianovsky’s scientific mainstream is: calculation and life prediction of critical
aerospace and naval components, numerical simulation of fretting-fatigue and contact fatigue,
residual stresses, mixed mode fracture, surface strengthening and coating protection assessment.
He worked on personal R&D work in collaboration with the Paton Welding Institute of the National
Academy of Sciences of Ukraine on numerical simulation and life prediction of critical elements of
Mir orbital station. Fretting fatigue crash predictions necessitated in-situ replacement and
reinforcement of bearing components of the energy system of solar batteries during 1991 to 1992,
and R&D work on improvement of super-fast vessel cavitators under personal contract with the U.S.
Office of Naval Research Global (ONRG) GRANT NUMBERN62909-11-1-7045 from 2011 to 2013.
Meanwhile, he is also engaged in peer reviewing, editing and proofreading of Strength of Materials
journal by personal contract with Kluwer/Plenum and Springer publishers (peer-reviewed over 300
articles and personally edited over 60 English issues of journal) since 2002.
12
Keynote Speaker: Dr. Lucas da Silva
Dr. Lucas da Silva
Department of Mechanical Engineering, University of Porto,
Portugal
Lucas da Silva is currently Associate Professor with Aggregation at the Department of Mechanical
Engineering of the Faculty of Engineering of the University of Porto and Head of the Materials and
Technological Processes Group. He obtained his PhD in bonding of composites from the University
of Bristol (UK) in 2004. He has published 127 ISI papers (102 as author and 25 as editor) and 18
books (6 as author and 12 as editor) mainly on adhesive joint mechanics. His papers were cited
1709 times and correspond to an h-index of 23 (SCOPUS, 05/07/2014).
He leads the Adhesives Group, composed of post-docs, PhD students and MSs students. The work
covers adhesives mechanical characterization, especially in terms of fracture toughness, adhesive
joint modelling with analytical models and finite element analysis supported by careful
experimental testing. He has coordinated 11 research projects mostly funded by the Portuguese
Science Foundation (FCT).
He is author of the 4 most cited papers published since 2009 of International Journal of Adhesion
and Adhesives. One of his papers obtained the SAGE Best Paper Award 2010 and Donald Julius
Groen Prize 2010 (both awards given by Institution of Mechanical Engineers). He received in 2013
the Award of Scientific Excellence by the Faculty of Engineering of the University of Porto.
He is co-editor of 2 Springer book series (Advanced Structured Materials and Springer Briefs in
Engineering: Computational Mechanics). He is member of the editorial board of International
Journal of Adhesion and Adhesives, Journal of Adhesion Science and Technology, and Proceedings
of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications.
He organises international conferences on adhesive bonding and founded the Portuguese Adhesion
Society that belongs to European Adhesion Societies Group (EURADH).
He has 2 pending Portuguese patents on graded joints and a mixed mode fracture apparatus. He
developed a software for designing adhesive joints available online (joint designer). He is consultant
of several national (e.g. Bosch) and international companies (e.g. Nagase Chemtex). He gives every
year a course on adhesive bonding in the international conference on Joining in Car Body
Engineering organized by Automotive Circle International which gathers the main car producers.
13
Keynote Speaker: Dr. Mitjan Kalin
Dr. Mitjan Kalin
Laboratory for Tribology and Interface Nanotechnology,
University of Ljubaljana, Slovenia
Dr. Kalin’s areas of research are wear and friction mechanisms of advanced materials, surface and
interfaces phenomena and boundary films for novel green lubrication technologies. He has
published over 100 peer-reviewed publications, 10 book chapters, 2 books and 10 patents. He is a
member of editorial boards of several international journals in the field of Tribology and
Engineering. He has got several awards, including a prestigious ASME Burt L. Newkirk Award (2006),
Fellow of STLE (2012) and highly recognized Zois Prize (2006). Currently, he is the head of the
Laboratory for Tribology and Interface Nanotechnology, which he founded in 2012 and a head of the
Chair for Tribology and Maintenance at the Faculty of Mechanical Engineering, University of
Ljubljana, where he holds the position of Full Professor. In 2007-2011 he also served as a Vice-dean
for research and international affairs at the same faculty and from 2013 he serves as a Vice-dean for
master and doctoral studies.
Keynote Speaker: Prof. Robert Cottis
Prof. Robert Cottis
Corrosion and Protection Centre, School of Materials,
University of Manchester, UK
Bob Cottis studied Natural Sciences at the University of Cambridge, graduating in 1967, specializing
in Metallurgy. He was awarded a PhD in 1973 for work on electrodeposition in the fluidized
electrode at the Department of Metallurgy and Materials Science at Cambridge. He was appointed
as a Project Manager, then Research Manager at the Fulmer Research Institute, a contract research
14
organization that was wholly-owned by the Institute of Physics. There he worked on long-term
research in the general area of corrosion, with much of the work being on corrosion fatigue. In
addition he undertook many short-term failure investigations and other consultancy work. He
joined the Corrosion and Protection Centre, UMIST in 1979, initially as a lecturer, then senior
lecturer (1992), reader (2000) and professor (2007).
He is active in the development of teaching in the field of Corrosion, being responsible for the
development of a distance learning approach to the MSc in Corrosion Control Engineering, and
Director of the TLTP Consortium that developed the Ecorr courseware to support corrosion
teaching. In 2005 he was awarded the T.J. Hull Award of NACE International for services to NACE in
the field of publications.
Keynote Speaker: Prof. Wonyong Choi
Prof. Wonyong Choi
School of Environmental Science and Engineering, Pohang
University of Science and Technology (POSTECH) Pohang,
Korea
Wonyong Choi (born in 1965) received a B.S. degree in engineering (chemical technology) from
Seoul National University (Korea) in 1988, a M.S. degree in chemistry (surface physical chemistry)
from Pohang University of Science and Technology (POSTECH, Korea), a Ph.D. degree in chemistry
(environmental photocatalysis) under the guidance of Prof. Michael R. Hoffmann from California
Institute of Technology (Pasadena, USA) in 1996. He then worked on heterogeneous atmospheric
chemistry with Dr. Ming-Taun Leu at NASA Jet Propulsion Laboratory from 1996 to 1998 as a
postdoctoral scholar. Dr. Choi joined the faculty of POSTECH in 1998 as an assistant professor and
became a full professor in 2008. His main research interests are mainly focused on semiconductor
photocatalysis and photochemistry for solar energy conversion and environmental applications and
advanced oxidation processes. Dr. Choi has published more than 200 articles in peer-reviewed
journals, which have been cited more than 18,500 times to date (H-index 55). He has completed the
academic advice of 15 Ph.D. and 22 master students since 1998. He initiated the establishment of
the Division of Environment and Energy in Korean Chemical Society and now serves as the Chair of
the division (2011-2012). In recognition of his academic achievements, he was selected as the
recipients of Young Scientist Award (Korean Academy of Science and Technology) in 2005 and
Lectureship Award for Asian and Oceanian Photochemist (Japanese Photochemistry Association) in
2008, and elected to the fellow of Korean Academy of Science and Technology in 2014. He serves as
an editor of Journal of Hazardous Materials (Elsevier: 2008-present) and the advisory board of J.
Advanced Oxidation Technology (Sci. Technol. Network), Energy and Environmental Science (RSC:
2008-present), and Journal of Physical Chemistry (ACS: 2009-2011).
15
Keynote Speaker: Prof. Hassan Mahfuz
Prof. Hassan Mahfuz
Director of Nanocomposites Laboratory, Florida Atlantic
University, USA
Prof. Hassan Mahfuz is currently Associate Dean for Research in the College of Engineering and a
Professor in the Department of Ocean and Mechanical Engineering at Florida Atlantic University,
Boca Raton, Florida, USA. In the last 25 years of his career as a faculty member, he has been PI and
Co-PI in materials research funding totaling approximately $33 million in 47 funded proposals. He
published 95 refereed journal papers, 1 book, 7 book chapters, 1 US Patent, and 133 conference
papers. He has made 12 keynote and 30 invited presentations in 12 countries. His “h” and “i-10”
indices according to Google Scholar are 25 and 45 respectively, with a total of 2128 citations. He
has supervised (as major professor) and graduated 9 Ph.D. and 45 M.S. students. He received the
Researcher of the Year award at FAU in 2008, and in 2014. He became ASME Fellow in 2010.
Keynote Speaker: Dr. Willi Pabst
Dr. Willi Pabst
Department of Glass and Ceramics, Institute of Chemical
Technology, Prague (ICT Prague), Czech Republic
Willi Pabst is Associate Professor of Chemistry and Technology of Inorganic Materials at the
Institute of Chemical Technology, Prague (ICT Prague), Czech Republic. He received his M.Sc. degree
(Dipl.-Min.) in Mineralogy at the University of Tübingen, Germany, in 1993 and his Ph.D. degree (Dr.)
in 1998 at the ICT Prague, Czech Republic, followed by a habilitation degree (Doc.) in 2005. He is
author or coauthor of more than 65 full-text papers in impacted journals (92 contributions on WOS,
H-index 21, > 500 citations) and 5 book chapters. He is a member of several international societies
and co-editor of the impacted journal Ceramics-Silikáty. His fields of teaching and research concern
materials theory (rational thermomechanics and theory of heterogeneous materials), disperse
systems (particle size and shape characterization, rheology), advanced ceramic shaping processes
16
(including new casting and foaming techniques), microstructural characterization (especially
stereology-based image analysis), microstructure-property relations (especially elastic and thermal
properties of porous ceramics) and the history of chemistry and materials.
Keynote Speaker: Dr. Katarzyna Grabowska
Dr. Katarzyna Grabowska
Materials Technology and Textile Design, Lodz University of
Technology, Poland
Dr. Katarzyna Grabowska is a scientist, textile engineer and designer and academic teacher in Lodz
University of Technology – Poland. She is the author and coordinator of projects about dumping of
electromagnetic fields by textiles, author of articles and patents about Fancy. Now, her field of
interest is electromagnetism in carbon nanotubes yarn. She cooperates with CSIRO in Australia.
Keynote Speaker: Prof. Ali Adibi
Prof. Ali Adibi
School of Electrical and Computer Engineering, Georgia
Institute of Technology, USA
Ali Adibi is the director of Bio and Environmental Sensing Technologies (BEST) and Joseph M. Pettit
Professor in the School of Electrical and Computer Engineering, Georgia Institute of Technology. His
research group has pioneered several structures in the field of integrated nanophotonics for both
information processing and sensing. He is the author of more than 120 journal papers and 350
conference papers. He is the recipient of several awards including Presidential Early Career Award
for Scientists and Engineers, Packard Fellowship, NSF CAREER Award, and the SPIE Technology
Achievement Award.
17
Keynote Speaker: Prof. Spas Dimitrov Kolev
Prof. Spas Dimitrov Kolev
School of Chemistry,
University of Melbourne, Australia
Spas Kolev is a Professor of Chemistry of The University of Melbourne. He completed his
undergraduate degree in chemistry at the University of Sofia (Bulgaria) in 1982. In 1988 he obtained
his PhD in the area of analytical chemistry from the Budapest University of Technology and
Economics (Hungary). Spas Kolev then worked as a Senior Assistant Professor in analytical
chemistry at the University of Sofia until 1990, when he took up a 2-year postdoctoral position in
the Laboratory of Chemical Analysis at the University of Twente (The Netherlands). After this he
returned to the University of Sofia where he was promoted to Chief Assistant Professor. In 1996
Spas Kolev took up a postdoctoral position in the Department of Chemistry of La Trobe University
(Melbourne) where he conducted research in the area of flow analysis and membrane separation.
In 2001 Spas Kolev joined the School of Chemistry of the University of Melbourne as a Lecturer. He
was promoted to Senior Lecturer in 2003, Associate Professor and Reader in 2007 and Professor in
2012.
Most of Spas Kolev’s research is focused in the areas of flow analysis (theory and applications),
chemical sensors, separation involving ion-exchange and polymer inclusion membranes, and
phytoremediation and phytomining. He has published close to 150 refereed articles, 3 book
chapters and has co-edited a book entitled ‘Advances in Flow Injection Analysis and Related
Techniques’ (Elsevier, 2008). He has given over 30 keynote or plenary lectures at international
analytical chemistry, material science and separation science conferences.
In recognition of his outstanding contributions to his fields of research, Spas Kolev has been
awarded the Ronald Belcher Memorial Award (Talanta, 1988), the Lloyd Smythe Medal of the
Analytical Division of the Royal Australian Chemical Instutute (2009), the Medal of the Japanese
Association for Flow Injection Analysis (2010), and the Grimwade Prize in Industrial Chemistry from
the University of Melbourne (2012).
Spas Kolev is a Fellow of the Royal Australian Chemical Institute.
18
Keynote Speaker: Dr. Manoj Gupta
Dr. Manoj Gupta
Department of Mechanical Engineering, National University
of Singapore, Singapore
Dr. Manoj Gupta is an Associate Professor and former Head of Materials Division of the Mechanical
Engineering Department of National University of Singapore. He did his Ph.D. (Materials Science)
from University of California, Irvine, USA (1992), and postdoctoral research at University of Alberta,
Canada.
His current research interests include processing, microstructure and properties evaluation of
advanced structural materials. To his credit are: (i) ‘Disintegrated Melt Deposition’ technique, a
unique liquid-state processing method, and (ii) ‘Hybrid Microwave Sintering’ technique, an energy
efficient solid-state processing method, to synthesize Al and Mg light-metal
alloys/micro/nano-composites.
He has published over 370 peer reviewed research papers in various international journals and
owns two US patents related to development of processing techniques and advanced materials.
He has also co-authored two books, ‘Microwave and Metals’ and ‘Magnesium, Magnesium Alloys
and Magnesium Composites’, published by John Wiley. He is also peer reviewer of 32
international journals related to materials science. Dr. Gupta has the working experience in various
countries such as USA, Canada and India besides Singapore.
Keynote Speaker: Dr. Changtai Xia
Dr. Changtai Xia
Key Laboratory of Materials for High Power Laser, Shanghai
Institute of Optics and Fine Mechanics, Chinese Academy of
Sciences, China
Dr. Changtai Xia is presently a researcher and PHD supervisor in Shanghai Institute of Optics and
19
Fine Mechanics, Chinese Academy of Sciences (CAS). He completed his doctor degree in Inorganic
Nonmetal Material at Shanghai Institute of Silicate of CAS in 1996. Dedicated to the study of crystal
growth and performance for more than a decade, he has participated in and taken charge of
scientific research projects of the National Natural Science Foundation of China (NSFC), 863
High-Tech research projects, the Chilean National Science and Technology Commission, High-Tech
department of Toyota Central Research as well as the International Research Center for
Environmental Technology Transfer.
During 1997-2000, he worked as a post-doctor at the Department of Physics in University of Chile
for three years, taking charge of a project of Chilean National Science and Technology Commission.
From 2001 to 2003, he worked as a visiting researcher in the High-Tech department of Toyota
Central Research. During the period, he was devoted to developing advanced
environmentally-friendly thermoelectric materials. Mainly responsible for the preparation of
plate-like crystal template materials, he successfully produced various plate-like crystal materials by
using hydrothermal method, coprecipitation method and fluxing agent. In addition, he achieved the
in-situ single crystallization of environmentally friendly thermoelectric ceramics, which greatly
improved the power generating characteristic.
As an outstanding elitist oversea, he joined the Shanghai Institute of Optics and Fine Mechanics,
Chinese Academy of Sciences (CAS). For over a decade, he has been committed to the research
fields of new monocrystalline substrate of wide bandgap semiconductors, new White LED
fluorescent material and laser crystals, which has promoted and created new prospects for the
development of White LED technologies. Currently, he is focused on the study of wide bandgap
semiconductors Ga2O3 single crystal growth, Ga2O3 Nanocrystal and White LED crystal fluorophor,
which are of broad application prospects in White LED and electronic devices etc.
He has published more than 90 papers in journals such as J. Cryst. Growth,J. Lumin, Scripta Mater,
over 70 of them are included by SCI and EI. He has been authorized for more than 10 patents, in 4
of which he acts as the main inventor. So far, he has taught more than 10 master and doctor
students.
20
Part Ⅲ Invited Keynote Speeches
Keynote Speech 1 New Times of Material Science and Engineering
--Advantages of CMR Manganites over Semiconductors and Superconductors
Speaker: Prof. Fu-sui Liu
Department of Physics, Beijing University, China
Time: 08:10-08:50, Tuesday Morning, Oct.21
Location: 5th floor, Crown Hall
Abstract:
Based on 12 similarities between high-Tc cuprates and CMR (colossal magneto resistance)
manganites in aspects of lattice and electronic structures, and on quantitative explanations for 15
experimental facts on pseudogap and CMR, this paper concludes that both the pseudogap and CMR
in CMR manganites are caused completely by Cooper pairs. This paper gives the properties of
Cooper pairs, and some examples of applications. These applications indicate that in future 20~30
years more than 90% and 80% applications of superconductors and semiconductors might be
replaced by CMR manganites, respectively.
Keynote Speech 2 Plasma Deposition of Diamond Like Carbon Based
Nanocomposites for Optical and Electrical Applications
Speaker: Prof. Sigitas Tamulevičius
Member of the European Materials Research Society
Physics Department, Kaunas University of Technology (KTU), Republic of Lithuania
Time: 08:50-09:30, Tuesday Morning, Oct.21
Location: 5th floor, Crown Hall
Abstract:
Diamond-like carbon (DLC) films is the subject of considerable attention due to their extraordinary
properties such as low friction coefficient and high wear resistance; high corrosion resistance and
chemical inertness; high electrical resistivity; infrared-transparency and high refractive index.
Therefore, many applications of DLC films have already been implemented for practical use such as
mechanical elements, optical components or biomaterials. Metal nanoparticle containing DLC films
showing excellent potential in various practical applications attract much attention as well. The
nanocomposite films containing the nanometer range sized noble metal nanoparticles of silver, gold
or other metals like copper, embedded in a matrix such as amorphous carbon have been studied
intensively, since such type of films exhibit surface plasmon resonance (SPR) and are promising
materials for developing the elemental base of laser physics, opto- and micro-electronics devices.
The unique optical properties of such nanostructured films in the visible region of the spectrum, are
due to resonance bands of plasmon-polariton absorption and their characteristics depend on the
filer and host material, on the size and shape of nanocrystallites and their concentration, and also
21
on the morphology of the composite material. The incorporation of metal-dielectric composites in
periodic structures enables combining the surface plasmon resonance and the resonance
phenomena that take place in it.
In this work an overview of recently completed and ongoing research on optical and electrical
properties of DLC deposited by reactive magnetron sputtering and novel applications of this
material is presented. The results of theoretical and experimental investigation of the optical
absorption spectra of thin films as well as piezoresistive properties of nanocomposite materials
composed of silver nanoparticles embedded in a diamond like carbon matrix will be discussed. The
results on structure, technological conditions relation to the gauge factor of DLC based
nanocomposite piezoresistive sensor will presented. The optical characteristics of DLC-Ag
nanocomposite were considered within the framework of the effective medium approximation. The
evolution of plasmon resonance characteristics and optical properties with changes of dielectric
constant of DLC host and size of embedded metal nanoparticles was studied. The observed
experimental redshift and broadening of the surface plasmon resonance bands were explained
using Mie scattering theory and Maxwell-Garnett effective medium theory. The obtained results
suggest that a random mixture consisting of a DLC film with embedded isolated silver inclusions is
promising material for the fabrication of tunable nanocomposites in different sensing platforms
(including optical and piezo sensors) . Finally, to use the unique potential of periodic DLC-Ag
nanocomposite-based structures systematic study on technology of deposition is necessary;
optimization of their structural and optical properties enables to design and fabricate the diffractive
optical elements for applications in various optical systems.
Keynote Speech 3 Nematic and Blue Phase
Optical-Terahertz-Microwave Advanced Applications
Liquid
Crystals
for
Speaker: Dr. Iam Choon Khoo
William E. Leonhard Professor of Electrical Engineering, the Pennsylvania State University, USA
Time: 09:30-10:10, Tuesday Morning, Oct.21
Location: 5th floor, Crown Hall
Abstract:
A critical review of the nonlinear optical responses of nematic as well as Blue-Phase liquid crystals
for all-optical switching with femtoseconds – microseconds response speed is presented. In
particular, the magnitude and response times of optical Kerr effects associated with director axis
reorientation, thermal and order parameter changes, coupled flow-reorientation effects and
individual molecular electronic responses are thoroughly investigated and documented, along with
exemplary experimental demonstrations. These liquid crystalline materials have been incorporated
in a multitude of novel structures to enable dynamical all-optical control of light transmission,
spectral reflection, polarization states, beam shape propagation direction and other characteristic.
We will discuss the merits and limitation of using nematics, and new possibilities with Blue-phase
liquid crystals, and how some of the mechanisms may find applications outside the optical regime
such as Terahertz and microwave. *Ref. I. C. Khoo, “Nonlinear Optics of Liquid Crystalline Materials,”
Physics Report 471, pp:221-267 (2009); I. C. Khoo, “Nonlinear Optics, Active Plasmonic and Tunable
Metamaterials with Liquid Crystals,” Progress in Quantum Electronics, Volume 38, Issue 2, pp: 77–
22
117 (2014); I. C. Khoo and S. Zhao, “Multiple Time Scales Optical Nonlinearities of Liquid Crystals for
Optical-Terahertz-Microwave Applications,” Progress in Electromagnetic Research PIER, Vol. 147,
page 37-56, 2014]
Keynote Speech 4 Energy Storage for Remote Area Power Supply Systems
Speaker: Dr. Sammy L. I. Chan
School of Materials Science and Engineering, University of New South Wales, Australia
Time: 10:40-11:20, Tuesday Morning, Oct.21
Location: 5th floor, Crown Hall
Abstract:
One of the possible solutions to provide electricity to a remote area community is to build a
self-sustaining power generation system by harvesting the renewable energy. However, the
intermittent nature of renewable energy has become a key issue to be solved in order to guarantee
a non-interruptible power supply at all times. This presentation discusses the requirements for such
an energy storage system to be used in remote area power supply (RAPS), and highlights batteries
and hydrogen-fuel cells system as the most promising and flexible options. The benefits and
limitations of present and potential battery systems will be explored. Another solution is to
generate hydrogen in an electrolyser using excess photovoltaic input in the RAPS, and to store it as
metal hydride for later use when insufficient direct solar electricity is available. For numerous
reasons, particularly the absence of self-discharge, reliability, longevity and safety in transport and
operation, we advocate serious consideration of RAPS using this metal-hydride storage of hydrogen.
Technical issues surrounding the use of hydrogen storage, as well as the choices of metal storage
alloys, will also be included in the presentation.
Keynote Speech 5 Microstructures and Mechanical Properties of FeNiMnAl
Alloys
Speaker: Prof. Ian Baker
Sherman Fairchild Professor of Engineering, Senior Associate Dean for Academic Affairs, Thayer School of
Engineering, Dartmouth College, USA
Time: 11:20-12:00, Tuesday Morning, Oct.21
Location: 5th floor, Crown Hall
Abstract:
Near-equiatomic FeNiMnAl alloys show a wide range of microstructures and mechanical properties,
but have been little explored. Studies on three different types of microstructures in this alloy system
will be outlined: 1) ultrafine microstructures(5-50nm), present in Fe30Ni20Mn20Al30,
Fe25Ni25Mn20Al30 and Fe35Ni15Mn25Al25, which consist of (Fe, Mn)-rich B2-ordered (ordered b.c.c.)
and (Ni, Al)-rich L21-ordered (Heusler) phases, and in Fe30Ni20Mn25Al25, which consist of (Ni, Al)-rich
B2 and (Fe, Mn)-rich b.c.c. phases, with the phases aligned along <100>; 2) fine microstructures
23
(50-70 nm), present in Fe30Ni20Mn30Al20, Fe25Ni25Mn30Al20, and Fe28Ni18Mn33Al21, which consist of
alternating (Fe, Mn)-rich f.c.c and (Ni, Al)-rich B2-ordered plates with an orientation relationship
close to f.c.c.(002)//B2(002); f.c.c.(011)//B2(001); and 3) coarser (0.5-1.5µm) lamellar
microstructures observed in alloys with a lower aluminum content, such as Fe30Ni20Mn35Al15, that
consist of alternating (Fe, Mn)-rich f.c.c and (Ni, Al)-rich B2-ordered phases with a Kurdjumov-Sachs
orientation relationship between the phases. The microstructures and mechanical properties in
these alloys have been determined as a function of annealing time, testing temperature and strain
rate. Some unusual features that have been observed include: no change of hardness as the phase
width increases in some of the B2/L12 alloys; a lower BDTT for coarser phase-sized
Fe30Ni20Mn20Al30 than material with a finer phase size; a monotonic increase in elongation with
increasing phase spacing in Fe28Ni18Mn33Al21; room temperature environmental embrittlement at
slow strain rates in Fe30Ni20Mn35Al15, and a monotonic improvement in this embrittlement with
increasing concentrations of Cr.
Keynote Speech 6 Fretting Fatigue Life Prediction for State-of-the-art
Materials and Structures
Speaker: Dr. Alexander Khotsianovsky
Pisarenko Institute of Problems of Strength of the National Academy of Sciences of Ukraine, Ukraine
Time: 14:00-14:40, Tuesday Afternoon, Oct.21
Location: 5th floor, Crown Hall
Abstract:
Life of structural elements subject to fretting fatigue, tribofatigue and contact fatigue is predicted
with innovative techniques developed by the author, colleagues from the Tribofatica Scientific
Association (Belarus), and researchers of Western schools of fretting fatigue (Germany and Spain).
Fretting fatigue occurs at relative displacement (slip) of a cyclically loaded structural component and
a clamped counterbody. Normal and shear surface stresses in slip give rise to early nucleation and
quick propagation of short cracks with the stress intensity factors (SIF), being inversely proportional
to the crack length, while SIF of normal is directly proportional to it. Fracture mechanics approach is
widely used for prediction of fretting fatigue propagation phase, corresponding to the larger share
of the structural component total life.
Mode (KI and KII) intial crack propagation, dependent on the friction coefficient, is controlled by
different criteria, viz. the maximum tangential stress criteria by Otsuka, maximum normal stress
criterion, etc. For structural components/counterbodies of different geometries, the combination of
surface and bulk stresses controls the crack propagation direction and its rate, inducing recurrent
variation of the total stress ratio R. This variation is accounted for via the Elber-Marci Keff concept
modified by the author, while the effect of negative residual stresses, induced by shot- and laser
peening, on SIF and total life is simulated.
Fretting fatigue life calculation results are presented for specimens and structural components from
state-of-the-art aluminum and titanium alloys. Analysis of advanced fretting fatigue research
outcomes confirms that this factor becomes critical for the in-service endurance of modern
materials, and the fracture mechanics and tribological measurement-based calculation techniques
provide a robust fretting fatigue life prediction, which may be extended to other domains of rigid
body mechanics.
24
Keynote Speech 7 Recent Developments in Adhesive Bonding
Speaker: Dr. Lucas da Silva
Department of Mechanical Engineering, University of Porto, Portugal
Time: 14:40-15:20, Tuesday Afternoon, Oct.21
Location: 5th floor, Crown Hall
Abstract:
The most recent developments in adhesive joints carried out at the Faculty of Engineering of the
University of Porto are discussed. Four different topics are presented: adhesives modified with cork
particles, mixed mode fracture toughness, dual adhesives in aerospace structures, graded joints and
durability of adhesive joints. Impact and tensile tests have shown that with the right amount and
size of cork particles, it is possible to achieve that goal.
A new multi-mode apparatus, inspired in a load jig previously developed by Fernlund and Spelt is
proposed. The jig allows for easy alteration of the mode-mixity and permits covering the full range
of mixed-mode I+II combinations.
A test procedure to simulate experimentally the thermal and mechanical load of aluminium-ceramic
joints was developed. The tests confirm that a mixed adhesive joint gives an improved mechanical
behaviour in comparison with a joint with a silicone adhesive alone.
The aspect of durability is being studied under different perspectives. One project is dedicated to
the use thermally expandable particles to heal or self-heal adhesives. Another project is developing
a numerical tool, more specifically a cohesive zone element, that takes into account the water
absorption of the adhesive, the testing temperature and the loading condition (static or fatigue).
Keynote Speech 8 Importance of Surfaces and Interfaces for Functional
Tribological Properties of Materials
Speaker: Dr. Mitjan Kalin
Laboratory for Tribology and Interface Nanotechnology, University of Ljubaljana, Slovenia
Time: 15:20-16:00, Tuesday Afternoon, Oct.21
Location: 5th floor, Crown Hall
Abstract:
The surface properties are among the crucial influences for tribological behavior in almost every
application. For boundary and mixed lubrication this is quite obvious. However, for full film
lubrication, less importance is placed to this point due to predominant relevance of fluid film
parameters. However, fluid film formation also depends on solid-liquid interaction, thus also on
surfaces and their physical and chemical interactions with lubricants. Wetting and surface energy
are often used to describe these phenomena. However, in tribological studies these parameters are
very simplified – and more typically – neglected. One of the reasons is that their influence on
friction and wear is not yet well understood and that there exists no generally accepted model to
encounter these phenomena in engineering design. Moreover, recent studies also show that
25
contact angle does not represent properly the wetting behaviour, but instead, spreading parameter
must be used, especially in spreading-wetting regime.
In this work, we present experimental and theoretical results of surface energy and wetting and
their effects on friction of several engineering-relevant surfaces and liquids, such as steel, ceramics,
DLC coatings, polymers and various base oils and water. We present significant differences in
wetting behavior with water and different lubricating oils and the influence on tribological behavior
depending on these properties for different contacts. The mechanism for the solid-liquid slip, which
combines the wetting behaviour, surface energy and adsorption is also explained.
Moreover, wetting behaviour also affects the tribochemical interactions at the interfaces. We
present an example of DLC-lubricated interfaces and we discuss the adsorption mechanisms of
alcohols and fatty acids on various DLC coatings, in correlation to wetting properties. In spite of a
notable amount of studies about the reactivity between the diamond-like carbon (DLC) coatings and
various oils and additives, fundamental chemical and physical effects of base oils and simple
hydrocarbons, as well some isolated reactive functional groups were investigated only scarcely and
only recently. The results show that DLC coatings are very sensitive toward different polar molecules
and that by defining their and lubricant properties, these interfaces can be substantially improved
and tailored for different functionalities.
Keynote Speech 9 The Corrosion Passport – What Engineers Need to Know
about Corrosion
Speaker: Prof. Robert Cottis
Corrosion and Protection Centre, School of Materials, University of Manchester, UK
Time: 16:15-17:05, Tuesday Afternoon, Oct.21
Location: 5th floor, Crown Hall
Abstract:
Corrosion in a very expensive phenomenon; global costs of corrosion are currently estimated to be
in the region of 1.8 trillion US dollars. Surveys that have looked at the costs of corrosion have
estimated that in the region of 25% could be saved by the application of existing technology. Many
of the avoidable costs arise because practicing engineers are insufficiently aware of corrosion and
its control, and the Corrosion Passport is a proposal by the World Corrosion Organization (WCO)
that is intended to provide guidance to engineering professional bodies and educational
establishments for the minimum that engineers should know about corrosion. This paper will
examine examples of corrosion failures to illustrate the need for such education, and present the
specification for the Corrosion Passport.
Keynote Speech 10 Metal Oxide Semiconductors with Interfacial
Heterojunctions for Solar Photocatalytic and Photosynthetic Applications
Speaker: Prof. Wonyong Choi
School of Environmental Science and Engineering, Pohang University of Science and Technology (POSTECH) Pohang,
26
Korea
Time: 17:05-17:45, Tuesday Afternoon, Oct.21
Location: 5th floor, Crown Hall
Abstract:
The photoinduced electron transfers occurring at the semiconductor surface are the key process of
solar photosynthetic and photocatalytic processes. Metal oxides such as TiO2, WO3, and Fe2O3 that
consists of earth-abundant elements are the most practical base materials for such applications.
Despite their popularity as solar conversion materials, breakthroughs in materials development
have yet to be achieved for practical applications. A variety of approaches have been investigated to
modify the base metal oxides using diverse inorganic and organic materials. The heterojunctions
built at the interface of metal oxide reduce the charge recombination or enhance the interfacial
charge transfer to achieve the higher conversion efficiency. In this talk, various modifications of
metal oxides with interfacial heterojunctions will be introduced and discussed for photocatalytic
and photosynthetic applications. The specific examples include thin alumina layer coated WO 3 for
water oxidation, thin TaOxNy layer coated N-TiO2 nanotubes for water splitting, TiO2/graphene
composites for photocatalysis, and charge transfer complexation on the surface of TiO 2. Each
modification method has a different effect on the solar conversion activity and the mechanisms,
which will be discussed in detail.
Keynote Speech 11 High Energy Fibers through Nanoparticle Reinforcement in
Textile Polymers
Speaker: Prof. Hassan Mahfuz
Director of Nanocomposites Laboratory, Florida Atlantic University, USA
Time: 19:00-19:40, Tuesday Evening, Oct.21
Location: 3rd floor, Royal HallⅡ
Abstract:
Polymer fibers such as Nylon, Polyester, Polyethylene, Kevlar, and Spectra have wide range of
industrial applications. From light weight armor to automotive bumpers, tires, air bags, to drug
delivery, tissue engineering, and wound dressing, polymeric fibers have ever increasing demands. In
most of these applications, the elastic energy storage capacity of these fibers would be an
important property. A key parameter to quantify this energy is the normalized velocity of the fiber
which depends on the strength, fracture strain, density and modulus of the fiber. Normalized
velocity is essentially the cubic root of the product of toughness and tensile wave speed of the fiber.
Normalized velocities for commercial fibers such as Nylon-6, Spectra, Kevlar, and Dyneema lie
between 500 and 800 m/sec. To revolutionize energy absorption and subsequent dissipation,
normalized velocity must be doubled, tripled, or even quadrupled. Nanoparticle reinforcement and
polymer hybridization offer a unique opportunity to accomplish such goals. The strength and
modulus of Nylon – a polyamide based fiber, is one order lower than that of Spectra – a
polyethylene based fiber. On the other hand, fracture strain of Nylon is one order higher than that
27
of Spectra. Molecular structures of Nylon and Spectra are such that one provides higher elongation
while the other contributes to strength and modulus. If these two polymers can be blended into
one precursor, fibers with very high elastic energy will be a reality. From quantum energy concept,
this exchange of molecular features is possible since both polymers transition from liquid to solid
over a wide range of temperatures allowing an opportunity to exchange such features. However,
blending alone is not enough to increase normalized velocity; hence infusion of CNTs is also
considered. This strategy of coupling nanoscale inclusion with polymer hybridization is expected to
increase normalized velocity substantially.
In this investigation, we have blended Nylon-6 with ultrahigh molecular weight polyethylene
(UHMWPE) to develop a hybrid polymer precursor. To enhance strength and modulus further, we
have infused single-walled carbon nanotubes (SWCNTs) into the blended polymer. Hybridized fibers
were processed using a solution spinning method coupled with melt mixing and extrusion. A
phenomenal increase in strength, modulus, and fracture strain of UHMWPE fiber by 103%, 219%,
and 108%, respectively has been observed. This processing also resulted in 441% and 88% increase
in toughness and normalized velocity. Nylon-6 caused increase in intercrystalline amorphism
inducing plasticity, while SWCNTs shared the load and co-continuously deformed – both
contributing to significant improvement in toughness and strength that we have observed.
Differential scanning calorimetry (DSC), x-ray diffraction (XRD), and scanning electron microscopy
(SEM) studies have shown that changes in percent crystallinity, rate of crystallization, crystallite size,
alignment of nanotubes, and sliding between polymer interfaces were responsible for such
enhancement. Details of nanoparticle infusion, fiber processing, thermal and mechanical
characterization, and elastic energy evaluation will be presented.
Keynote Speech 12 Effective Properties of Isotropic Porous Ceramics – from
Rigorous Bounds to Cross-property Relations
Speaker: Dr. Willi Pabst
Department of Glass and Ceramics, Institute of Chemical Technology, Prague (ICT Prague), Czech Republic
Time: 08:00-08:40, Wednesday Morning, Oct.22
Location: 3rd floor, Royal HallⅡ
Abstract:
Theoretical concepts and models are reviewed and applied for the prediction of effective properties
of isotropic porous ceramics, with special focus on Young’s modulus (tensile modulus) and thermal
conductivity. Based on experimental data for many types of ceramics, it is shown that our
exponential relation provides the most realistic property prediction for ceramics with isometric
pores and convex porosity below 60–70 %, while concave porosity typically leads to lower effective
properties and highly porous cellular ceramics with porosities above 60–70 % (ceramic foams,
typically with saddle-point porosity) tend to have higher effective properties, which are usually well
described by power-law relations. Further, it is shown that our cross-property relation is more
universal than any model relation and provides extremely precise relative property predictions. A
new generalized version of this relation is proposed that can be used even in the case of extremely
anisometric pore shape, e.g. oblate spheroids.
28
Keynote Speech 13 From Electromagnetic Field Suppressing To Energy
Harvesting
Speaker: Dr. Katarzyna Grabowska
Materials Technology and Textile Design, Lodz University of Technology, Poland
Time: 08:40-09:20, Wednesday Morning, Oct.22
Location: 3rd floor, Royal HallⅡ
Abstract:
The most common current method of suppressing the harmful electromagnetic field using movable
textile guards is Faraday cage formed of electrically conductive composite fibers. However, the
effect of damping of the magnetic and electrical components, as well as parameters describing the
comfort of use (energy and moisture permeability) are still insufficient. This paper presents a new,
efficient method for suppressing electromagnetic field using the hybrid yarn as a weft in textiles.
Different structural compositions of this thread were examined, this means: copper, steel,
swisshield yarn, carbon nanotube yarn (CNT yarn) and the effects of attenuation of the
electromagnetic field were investigated. Then, based on the optimal solution of the hybrid yarn
structure, the researches on electromagnetic induction in an alternating electromagnetic field were
conducted too. The aim of these researches is energy storage and energy harvesting using textile
transmitter. The inspiration for exploring this research topic is an idea of textile positioned at the
hips' level (as part of the trousers) and magnets permanently placed in cufflinks. The movement of
hands performed while walking generates a changing electromagnetic field which inducts the
current in the hybrid thread inserted as a weft in in a textile placed at the hips level. The hybrid
thread is joined with the power supply system of the cell phone and inducted current sustains its
power supply. This project is also focusing on artificial sources of changing electric energy like:
electrical power installations used for electric energy transfer (power lines) as well as installations
and electric devices (industrial, medical, everyday use devices). Nevertheless, the positive results of
the researches presented in the project will influence the development of textiles as a scientific
discipline and as a result development of the civilisation because renewable energy supplies are one
of the most important conditions of balanced social growth.
Keynote Speech 14 A Novel CMOS-compatible Hybrid Material Platform for
Integrated Nanophotonics
Speaker: Prof. Ali Adibi
School of Electrical and Computer Engineering, Georgia Institute of Technology, USA
Time: 09:20-10:00, Wednesday Morning, Oct.22
Location: 3rd floor, Royal HallⅡ
Abstract:
The development of ultra-compact integrated nanophotonic structures for communications, sensing,
and signal processing has been of great interest lately. Recent progress in the development of
low-loss waveguides and miniaturized high-Q microresonators for operation at visible and infrared
wavelengths have resulted in orders of magnitude reduction in the size of functional integrated
29
photonic structures. The possibility of low-power and fast tuning of the resonance features in these
structures has made the formation of reconfigurable photonic structures possible.
Among existing CMOS-compatible substrates, silicon (Si) and silicon nitride (SiN) have been used the
most. Despite impressing progress in Si-based and SiN-based integrated photonics, neither
substrate alone can be used for practical applications. Si (despite its good reconfigurability) suffers
from strong nonlinear effects (especially at high light intensities) and relatively large free-carrier loss
while SiN (with one order of magnitude lower loss and lower nonlinearity compared to Si) is very
hard to tune. Thus, a reliable material system that combines ultra-low-loss and high power handling
with efficient and fast reconfigurability is of high demand in integrated nanophotonics.
In this talk, the recent achievements in the development and optimization of hybrid multi-layer
CMOS-compatible material systems (e.g., SiN/Si, multi-layer Si/SiO2, etc.) to address all the practical
requirements of ultra-fast and ultra-compact integrated photonic structures for a large range of
applications (e.g., signal processing and sensing) will be discussed. The possibility of including layers
of planar materials (e.g., graphene) and highly-optimized nonlinear optical polymers to form a
highly functional material system for integrated nanophotonics will be addressed. To demonstrate
the unique capabilities of this material system, a series of ultra-compact and high-performance
reconfigurable photonic devices and subsystems that are formed by using high Q resonators will be
demonstrated, and the use of these devices and subsystems for realization of densely-integrated
reconfigurable photonic chips for signal processing and sensing applications will be discussed.
Keynote Speech 15 Polymer Inclusion Membranes – Advanced Materials for
Extractive Separation and Novel Templates for Metal Nanoparticle Synthesis
Speaker: Prof. Spas Dimitrov Kolev
School of Chemistry, University of Melbourne, Australia
Time: 10:20-11:00, Wednesday Morning, Oct.22
Location: 3rd floor, Royal HallⅡ
Abstract:
Polymer Inclusion Membranes (PIMs) are a relatively new type of self-supporting liquid membranes
as far their extraction and separation capabilities are concerned. They exhibit properties that make
them superior to other types of liquid membranes (i.e. bulk, emulsion and supported liquid
membranes) and offer an attractive alternative to conventional solvent extraction by mimicking this
important industrial separation process but without the use of a large inventory of volatile,
flammable and often toxic diluents. In addition, they provide possibilities for conducting the
extraction and back-extraction processes simultaneously at opposite sides of the membrane. This
arrangement offers the potential for substantial improvements in the overall speed of the
separation process and in the reduction of its complexity.
PIMs have been also successfully used as templates for the manufacturing of surface layers of noble
metal nanoparticles.
The potential of PIMs for efficient extractive separation and manufacturing of surface layers of
metal nanoparticles will be illustrated in the present talk with examples from our research involving
the separation of selected noble and base metal ions from their aqueous solutions and the
manufacturing of immobilized onto the surface of PIMs gold, silver or palladium nanoparticles.
30
Keynote Speech 16 Magnesium Based Nanocomposites: Light Weight
Materials of the Future
Speaker: Dr. Manoj Gupta
Department of Mechanical Engineering, National University of Singapore, Singapore
Time: 11:00-11:40, Wednesday Morning, Oct.22
Location: 3rd floor, Royal HallⅡ
Abstract:
Magnesium (with density, ρ = 1.74 g/cc) being ~ 35% lighter than aluminum and ~ 70% lighter than
steel is an attractive and a viable candidate for the fabrication of lightweight structures. Progressive
research advancements have been made so far to utilize the magnesium (Mg) based materials in
various technology-driven applications. Recently, the incorporation of inexpensive nanoscale
ceramic particles to Mg has received astounding attention, as it promises a new class of Mg
materials called Mg-metal matrix nanocomposites (Mg-MMNCs) which displays superior strength
and/or ductility, corrosion resistance, high temperature properties and wear resistance without
noticeable weight gains. In this talk, an overview of the processing and properties of various
Mg-MMNCs will be presented. First, the innovative and cost effective processing methodologies
such as disintegrated melt deposition method and microwave assisted bidirectional rapid sintering
technique will be briefly introduced. Later, the mechanical and corrosion characteristics of various
Mg-nanocomposite formulations produced using the above mentioned methods will be presented.
Finally, an account of on-going research initiatives in the development of novel light weight Mg
nanocomposites will be highlighted.
Keynote Speech 17 Recent Developments on Wide Band Gap Semiconductor
β-Ga2O3
Speaker: Dr. Changtai Xia
Key Laboratory of Materials for High Power Laser, Shanghai Institute of Optics and Fine Mechanics, Chinese
Academy of Sciences, China
Time: 14:00-14:40, Wednesday Afternoon, Oct.22
Location: 3rd floor, Royal HallⅡ
Abstract:
β-Ga2O3 has been discovered as a wide band gap semiconductor as early as 1960s. It has a direct
band gap as large as 4.9 eV. However, the growth of single crystals has been hindered, on the one
hand, by the twinning affinity and cleavage nature of β-Ga2O3, on the other hand, by the high
evaporation tendency and high melting temperature (2000 K) ofβ-Ga2O3. Recent successful growth
ofβ-Ga2O3 crystal by the floating zone, the Edge-Defined, Film Fed Growth (EFG) and the czochralski
methods made careful study of its properties possible. It has been found out thatβ-Ga2O3 crystal
has great application potential in deep-ultraviolet photodetectors and energy-saving light-emitting
diodes (LEDs), even greater application potential ofβ-Ga2O3 in energy-efficient power devices has
also been demonstrated.
31
Part Ⅳ Oral Session
Oral Presentation
Devices Provided by the Conference Organizer:
 Laptops (with MS-Office & Adobe Reader)
 Projectors & Screen
 Laser Sticks
Materials Provided by the Oral Presenters:
 PowerPoint
Duration of each Presentation (Tentatively):
 Regular Oral Session: 10 Minutes of Presentation, 3-5 Minutes of Q&A
Time:
 Oct.21, 19:00-21:30 and Oct.22, 15:35-18:00
Location:
 3rd floor, Royal HallⅡ, 3rd floor, Royal HallⅠ, 4th floor, Hugo Hall
Session Chair: Jian Xu, Sourbh , Oleg Vitrik
Paper ID
CMSE1352
CMSE1358
CMSE1362
CMSE1380
CMSE1394
CMSE1417
CMSE1623
CMSE1636
Paper Title
Prediction and Control of the Bi-stable FGM Composites by
Temperature Gradient Field
Shaking-swing Coupled Vibration Analysis of a Rotating Laminated
Composite Blade by Finite Element Method
Oxidation Characteristics of Duplex Stainless Steel 2205 in Simulated
Combustion Atmosphere
Thermodynamics Assessment of Extra Mn Addition in the Recycling of
a LM24 (Al-Si-Cu) Aluminium Alloy
Flow Channel of Injection-rolling Nozzle Design and Optimization in
polymer Continuous Injection Direct Rolling Process
Miniature Sources for Radiation Oncology Produced from
Nanomaterials
Synthesis and Characterization of CuO/NiCo2O4 Core/Shell Nanowire
Arrays Directly Grown on Copper Foam
FE Analysis of 6063 Aluminum Profiles with Complex Cross-section
During Online Quenching Processes
32
Author
Gangfei Ye
Xueshi Yao
Jianguo Peng
Shouxun Ji
HaiXiong Wang
Mikhail Taubin
Kaili Zhang
Mei Ruibin
CMSE1651
CMSE1720
CMSE1737
CMSE1793
CMSE1833
CMSE1845
CMSE1847
CMSE1858
CMSE1910
CMSE1911
CMSE1920
CMSE1964
CMSE2008
CMSE2048
CMSE2054
CMSE2073
CMSE2101
CMSE2113
CMSE2122
CMSE2124
The In-situ Synchrotron X-ray Diffraction Investigation of the
Deformation-induced Martensitic Transformation of the Metastable
Austenite in Fe-13%Cr-4%Ni Stainless Steel
The Abrasive Wear of Oxide and Non-oxide Ceramic Phases
Description of Short Fatigue Crack Behavior at Different Maintenance
Times for LZ50 Steel
Microstructure and Plastic Anisotropy of Fine Grained AZ31 Mg Alloy
Fabricated by Differential Speed Rolling at 473 and 573 K
Structural and Functional Properties of (Cu, N) Co-doped ZnO Films
Self-assembly Alumina Nanowires Weaved by Leidenfrost Droplets
Deposition and Characterization of as-deposited ZnO Thin Films by
Thermal Evaporation Method
A Fast Testing Method and an Instrument for Surface Roughness
Preparation of Biogas and Its Purification by Hollow Fiber
Thermal Stability of Carbon Nanotube-Based Nanofluids for Solar
Thermal Collectors
Numerical Simulation and Tracing to the Motion of Inclusion Particles
in Casting Process
Study on Electromagnetic Field and its Application of Heat Transfer
Mechanism of Cast Steel in Induction Melting Process
A Hypotesis on Electromagnetic Initiation of White Etching Cracks in
Martensitic Bearing Steel 100Cr6
Predicting the Endurance of Heterogeneous Epoxy Resin
Simulation Analysis of Resin-based Composites about Temperature and
Degree of Cure Fields by Thermoforming Process Considering the
Influence on Temperature Distribution inside the Autoclave
Size-dependent Free Vibrations of Electrostatically Pre-deformed
Functionally Graded Micro-cantilevers
Fabrication and Characterization of ZnO Nanorods/Pd-Au Contacts
Influence of Zr Addition on the Phase Decomposition of Al-6Mg-0.4Sc
Dtudied by Positron Annihilation Spectroscopy
Compatibility of RN Graphite with Primary PGM Industrial Matte
High temperature phase transformation of designed ternary Ti-Al-Nb
alloys for directional solidification
Forming of New Thermoplastic Based Fibre Metal Laminates
CMSE2203
CMSE2229
CMSE2231
Salt-Assisted Self-Sustain High-Temperature Synthesis of Aluminium
Nitride Powders
Study of Different Parameters Which Influence on the Combined
Process of Asymmetric Rolling and Plastic Bending of Large Bodies of
Rotation
33
Shenghua
Zhang
Pedzich
Zbigniew
Bing Yang
Haewoong
Yang
Rodica Plugaru
Hong Guo
P. Chakrabarti
Xiaojie Li
Quan Xu
Sara Mesgari
Hagh
Min Wang
Hong Wang
Andris Jakovics
G. V.
Malysheva
Fei Sun
Masoud Tahani
P. Chakrabarti
M.K.Banerjee
Mpilo
Jongmoon Park
Alexander Graf
Miroslaw M.
Bucko
Alexander
Pesin
Experimental Study on Concrete Specimens Based on the Principle of
Minimum Energy
Fabrication of Porous Metal Nanoparticles and Microbumps by Means
CMSE2233 of Nanosecond Laser Pulses Focused through the Fiber Microaxicon
Similarity Method for Boundary Layer Flow of a Non-Newtonian
CMSE2243 Viscous Flow at a Convectively Heated Surface
CMSE2245 Electrospun Carbon Nanofibers and Their Applications
Investigation on Effect of Pulsed Current MPAW Parameters on Weld
CMSE2270 Quality Characteristics at Various Thicknesses of AISI 304L Sheets
Low-cost Synthesis of Nanocrystalline and Spherical LiFePO4/C
CMSE2277 Composite Cathode Materials
Acoustic Wannier-Stark Ladders and Bloch Oscillations in Porous Silicon
CMSE2283 Multilayer Structures
The Microcrystals Engineering using Self-organized Assemblies of
Protonated meso-Tetraphenylporphine Dimers with the Help of Zundel
CMSE2316 cations, H5O2+
CMSE2322 Structure of the Earth and the Role of Uranium
Evaluation of Effect of Aging during Mixture Transportation from Plant
CMSE2339 to Field on Pavement Air Voids
Comparison of Single Yarn Distribution in Cross-Section of
CMSE2389 Water-Tempered and Non-Treated Ply Yarn
Multi-objective Optimization for Foundation Structures of Offshore
CMSE2401 Wind Turbines in Dynamic Multi-physics Coupling Fields
Magnetism and Spin Transport through Transition Metal
CMSE2402 Organometallic Molecules
Investigation of basic thermodynamical and transport data of binary
CMSE2406 systems of polyethylene glycol (PEG)/CO2
Microstructural Design of New High Conductivity – high Strength
CMSE2420 Cu-based Alloy
CMSE2232
CMSE2434
CMSE2465
CMSE2482
CMSE2486
CMSE2489
CMSE2890
Design and Optimization of an Ultrasonic Spray Pyrolysis System for
Production of Titanium Dioxide Nano-structures for Solar Cell
Electrodes
The Use of Plasma-arc for Extraction of Zinc and Lead from the
Steelmaking Dust
Sol Gel technology: A key Tool to Develop Nanomaterials for Material
and Environmental Applications
Silver Nanoparticles Stabilised Guar Gum for Catalytic Reduction of
P-nitrophenol
Fast and Effective Removal of Methylene Blue from Aqueous Solution
by Using Biopolymer Silica Nanocomposite
Synthesis, Character ization and Application of Guar Gum Grafted
Polyaniline/Silica Nanocomposites
34
Xinyu Liang
Oleg Vitrik
Gabriella
Bognar
Hao Fong
Kondapalli Siva
Prasad
Wang
Yongqiang
Jesus Arriaga
Alexander
Udal'tsov
J. N. Nanda
Meor Othman
Hamzah
Safdar
Eskandarnejad
Ge Yang
Ivan Stich
Masa Knez
Hrncic
Mohamed
Gouné
Raymond
Taziwa,
Edson Meyer
Laura
Simonyan
Shivani Mishra,
Sadanand
Pandey
Sourbh .
Seadimo
Mojaki
Time-resolved Fluorescence Up-Conversion Study of Radiative
Recombination Dynamics in III-Nitride Light Emitting Diodes over a
CMSE2518 Wide Bias Range
Jian Xu
Exploring Microstructures of Materials Using Ultra-Small-Angle
CMSE2523 Neutron Scattering
Christine Rehm
NOTE: If you want to make an oral presentation but your paper ID is not included in the list, please
contact the organizing committee or the session chair to arrange it.
Part Ⅴ Poster Session
Poster Presentation
Materials Provided by the Conference Organizer:
 X Racks & Base Fabric Canvases (60cm×160cm, see the figure below)
 Adhesive Tapes or Clamps
Materials Provided by the Presenters:
 Home-made Posters
Requirement for the Posters:
 Material: not limited, can be posted on the Canvases
 Size: smaller than 60cm×160cm
 Content: for demonstration of the presenter’s paper
Requirement for the Presenters:
 Stand beside his (her) Poster through the Session, and
discuss with the readers about his (her) paper
Time:
 Oct.22, 14:00-18:00
Location:
 4th floor, Dumas Hall
35
Paper ID
CMSE1086
CMSE1171
CMSE1175
CMSE1178
CMSE1252
CMSE1261
CMSE1284
CMSE1311
CMSE1385
CMSE1453
CMSE1466
CMSE1478
CMSE1606
CMSE1619
CMSE1644
CMSE1645
CMSE1660
CMSE1663
CMSE1709
CM SE1714
CMSE1801
Paper Title
Estimation of the Characteristic Impedance and Wave Numbers of
Porous Materials Based on In-situ Measurements
Two Speed Models in Hollow Aluminium Alloy Profile Extrusion
Using Porthole Die
Combined Multiple Scales Method and Perturbation Method for
Approximation Solutions in Magnetic Electric Instrument
Electromechanical Coupling System
Research on the Sensing and Driving Performance of Micro-nano
Piezoelectric Fiber Composites
Modeling Based on Trivariate NURBS And Isogeometric Analysis
(IGA) of Spur Gear
Mechanical Properties of GF/pCBT Composites and Its Fusion
Bonding Joints: Influence of Process Parameters
Strength and Durability Characteristics of Latex-Modified Jute/
Macro-synthetic Hybrid Fibre-Reinforced Concrete
Analysis of Coupled Thermal-mechanical Mechanism Based on
Work Hardening Phenomenon in High-speed Cold Roll-beating
Preparation and Evaluation of PANI/PTT Electromagnetic
Shielding Fabric by In-situ Chemical Polymerization
Study on the Resistance Properties of Magnetorheological
Elastomer
Optimization of Elastic Element Material and Strengthen Process
on Design for Performance
Optical and Electrical Performance of ZnO Films Textured by
Chemical Etching
Bond Strength Deterioration of Reinforced and Prestressed
Concrete Members Subjected to Reversed Cyclic Load
Solvothermal Preparation of CaTiO3 Prism and CaTi2O4(OH)2
Nanosheet by a Facile Surfactant-free Method
Interfacial Fracture Toughness of Multi-Layered Composite
Structures
The Metastable Structure of Hypereutectic Al-17.5Si Alloy Surface
Induced by High Current Pulsed Electron Beam
Internal stress control of Transition Metal Thin Films
Effects of Excess Energy on Supersaturated Fe-IIIB Thin Films with
Ion-plating Process
Electronic and Magnetic Properties of the Cu and Ag Doped AlN:
An Ab Initio Study
A Study of Bond of Structural Timber and CFRP Plate
Effects of Frequency on Intermittency Failure Phenomena of
Gold-plated Electrical Contact Materials under Fretting Conditions
36
Author
Yang Zhao
Lou Shumei
Xi Li
Lihua Zhang
Yusuf
Olatunbosun
Xiaoyu Sun
Chan-Gi Park
Fengkui Cui
Lei Kaiqiang
Xuegong Huang
Meng Liu
Shiuh-Chuan
Her
Jung-Yoon Lee
Qifu Bao
Shiuh-Chuan
Her
Hu Liang
Motoki Tawata
Yoshihito
Matsumura
Zheng Yan
Yongtaeg Lee
Wanbin Ren
CMSE1847
CMSE1873
CMSE1901
CMSE1910
CMSE1912
CMSE2012
CMSE2014
CMSE2020
CMSE2062
CMSE2125
CMSE2151
CMSE2153
CMSE2180
CMSE2197
CMSE2238
CMSE2249
CMSE2320
CMSE2325
CMSE2328
CMSE2332
CMSE2347
CMSE2374
Deposition and Characterization of as-deposited ZnO Thin Films
by Thermal Evaporation Method
Supercontinuum Generation in PCF by Ti:Sapphire Gemtosecond
Laser
Study the Effects of CNTs on the Properties of WC-based
Impregnated Diamond Matrix Composites
Enhancing the Luminescence of Carbon Dots by Doping Nitrogen
and Its Application in the Detection of Fe (Ⅲ)
1/2 Subharmonic Parametric Resonance of Electrically Actuated
Carbon Nanobeam
Finite Element Based Analysis of the Temperature Field of
Emergency Safety Brake and the Study of Thermal Properties
A Study on the Floor Vibration Evaluation of Concrete Slab
The Research of Temperature Measurement of the Crane Brake
Based on the Infrared-Ceramic Coating Technology
Experimental Study on Composite Stiffened Panel with Low
Velocity Impact Damage under Compressive Load
Research on Magnetic Properties of Two-Phase Composite
Magnetic Material and Design of Its Product Application
A bonding Study of TiAl and SCM440 by Friction Welding
Roughness Measurements of Deep Drawn 3003 Aluminum Alloy
after Surface Treatment
Mechanical Softening of Tempered martensitic Steel Depending
on Long-term Aging and Creep
100 MeV O7+ Ion Irradiation in Nanosized Zinc Ferrite: an UV-Vis
Spectroscopic Investigation
Fabrication of Advanced Air Foil Bearing by Metal Injection
Molding
Poly (Acrylamide-co-Acrylic Acid) Hydrogels Containing TiO2
Nanoparticles for Antimicrobial Applications
Fabrication and cCharacterization of Non-polar M-plane AlN
Crystals and LEDs
Impact Characteristics of CFRP Double Hat Shaped Section
Member for Optimal Crashworthiness Design
Study on Impact Characteristics of CFRP Structural Members
According to the Variation of Stacking Conditions
Estimation of Slab Depth, Column Size and Rebar Location of
Concrete Specimen Using Impact Echo Method
Influence of pH Value on the WO3 Nanomaterials during
Hydrothermal Synthesis and Its Gas-sensing Properties
Effect of U-O Forming Process on the Microstructure Evolution of
Welded TA15 Tube
37
P. Chakrabarti
Xing Shuai
Meng Li
Jungang Zhao
Zhiwei Liu
Fen Yang
Seonguk Hong
Weiqi Lv
Tao An
Zhiwei Chen
Ki-Young Kim
Dong Gyun Woo
Kyu-Jong Lee
Ayush Sinahal
Andy Tirta
Nabila
Haddadine
Yi Liang
In-Young Yang
Juho Choi
Seunghun Kim
Ai-Hua Yan
Kong Beibei
CMSE2399
Study on Mechanical Behavior of Welded Joints for Heavy Thick
Steel Plates by Welding Processes
Surface Treatment on the Interfacial Properties of SMA
Composites
CMSE2467
Magnesium Matrix Composites
CMSE2394
HanSur Bang
Lidan Xu
Henry Hu
Satoshi
Yamasaki
CMSE2481
Rheological Properties of Thermoplastic Polyurethanes
Preparation and Characterisation of Activated Carbon from Wood
CMSE2514 Bark and its Use for Adsorption of Cu (II)
Wenbo Zhang
NOTE: If you want to make a poster presentation but your paper ID is not included in the list, please
contact the organizing committee to arrange it.
Part Ⅵ Hotel Information
1. Hotel Information
The Shanghai Royalton Hotel is located on the western side of Shanghai, near the International
Gymnastics Center. It is a part of the Hongqiao Development Area. The Royalton Hotel Shanghai is
within 5 minutes' walk of the nearest metro station. Lines 2, 3, and 4 provide service into the city.
Address: 789 Wu Yi Road, Shanghai, China
Tel.: 86-21-52068000
Website: www.royalton.com.cn
2. How to get to the hotel
1) From Shanghai Pudong International Airport( about 55 kilometres from the Hotel)
a) Take subway line 2 east extension(GUANGLANLU Direction) from Pudong International Airport
Stop(浦东国际机场站) to the stop-GUANLAN ROAD(广兰路站), and then change for subway line
2(XUJINGDONG Direction) to the stop-ZHONGSHAN PARK(中山公园站) and get out from Exit 2. It is
about 1.1 kilomemres from the Hotel.
b) Take the Magnetism Aerosol Train from Pudong International Airport Stop(浦东国际机场站) to
the stop-LONGYANGLU(龙阳路站), and then change for subway line 2(XUJINGDONG Direction) to
the stop-ZHONGSHAN PARK(中山公园站) and get out from Exit 2.
2) From Shanghai Hongqiao International Airport (about 9 kilometres from the Hotel)
a) Take the subway line 10 (XINJIANGWANCHENG Direction )from stop-Hongqiao Airport
Terminal(虹桥 1 号航站楼站)to the stop HONGQIAO ROAD( 虹桥路站), and change for the subway
line 4(YISHAN ROAD direction) to the stop- ZHONGSHAN PARK (中山公园站) and get out from Exit
2.
38
b) Take bus 941 from the stop-YOULELUYINGBINYILU( 友 乐 路 迎 宾 一 路 站 )to the stop
ZHONGSHANXILUTIANSHANLU(中山西路天山路).
3) From Shanghai Railway Station (about 9 kilometres from the Hotel)
Take the subway line 4 or line 3 (JIANGYANGBEILU Direction) to the stop- ZHONGSHAN PARK (中山
公园站) and get out from Exit 2.
4) From Shanghai South Railway Station (about 8 kilometres from the Hotel)
Take the subway line 3(JIANGYANGBEILU Direction) to the stop- ZHONGSHAN PARK (中山公园站)
and get out from Exit 2.
5) From Shanghai West Railway Station (about 6.5 kilometres from the Hotel)
Take a taxi (fee: about 25RMB).
For non-Chinese attendees, please show the following information to the driver if you are taking a
taxi:
请送我到: 上海市长宁区武夷路 789 号,上海美仑大酒店
3. Map of the hotel
39
Part Ⅶ
Tourism
On Oct. 22 we will depart from Royalton Hotel at 19:00 to Huangpu River Cruises, and come back to
the hotel at around 21:00. And on Oct. 23 we will depart from Royalton Hotel at 7:30 a.m.to
Zhouzhuang - go to Carton King Theme Restaurant for lunch - visit Shanghai Global Financial Hub
after lunch - visit The Old City God's Temple- go back to the hotel after dinner at around 18:00.
1. Huangpu River Cruises
The Huangpu River (Huangpu Jiang) is the city's shipping artery both to the East China Sea and to
the mouth of the Yangzi River, which the Huangpu joins 29km (18 miles) north of downtown
Shanghai. The Huangpu's wharves are the most fascinating in China. Cruising on the Huangpu River
starts from the Bund to the south of the Bund will take one or two hours. As the ship heads north,
downstream, it passes Huangpu Park across from the Peace Hotel, still considered by many to be
the loveliest piece of architecture in Shanghai. Others prefer the architectural perfection of the Jin
Mao Tower on the opposite shore, now flanked in the back by the even taller World Financial Center.
Also on the Pudong shore are the can't-miss Oriental Pearl Tower, the Shanghai International
Convention Center with its twin glass globes, and a slew of hotels, offices, and malls of the Lujiazui
Financial Area.
2. Zhouzhuang
Zhouzhuang, listed as the world's Top 10 most beautiful towns by CNN in 2012, lies at the middle
between Shanghai and Suzhou, is an ancient town of Kunshan City, Jiangsu Province, where
abounds with rivers and lakes. So it is thought by many to be the best waterside town in China. This
ancient town has a history of more than 900 years old with many houses built in the Ming and Qing
40
Dynasties. There are about 100 houses with courtyards, and 60 of them have arch gateways made
by carved bricks. With lakes on four sides, the beauty of Zhouzhuang is specially to be found along
the waterside lanes and around a number of the stone bridges. A different vista at every turn can be
found here. All those make a visit more enjoyable. Also, one can enjoy the fairyland atmosphere of
the evenings here when the myriad stars twinkles as though in communication with the glittering
lights. The best way to get a taste of local lifestyle is spend an afternoon at a riverbank teahouse,
sipping a cup of green tea and enjoying the river landscape.
3. Carton King Theme Restaurant
Carton King Creativity Park, one of the new attractions on Zhouzhuang's tourist map, is a pretty little
garden with adjoining restaurant, honey store and souvenir store. As the name suggests, cartons are
the rule here. The park, including stores, a gallery, a museum and a restaurant, has become a
must-see since its opening in August last year. It’s actually quite unbelievable that most of the things
you see here- from figurines and animals to hats, bags and furniture- are really made of cardboard!
Carton King has been in the paper industry for more than 20 years, engaged in the development
and design of paper. They have more than 2000 products and over 100 patents. So it was only
natural that they showcase some of their interesting and creative designs in their very own park.
Checking out the tables and chairs in Carton King’s restaurant, they are all made of cardboard. We
tend to think of paper materials as being rather flimsy and easy to tear apart. However, if you pack
them together into thick cardboard form, they hold their strength pretty well! I was just a tad
apprehensive sitting down for the first time, but you soon forget that they are not “real furniture”.
“They are not just for display,” explains Chen Weilin, general manager of the Carton King Creativity
Park, “A chair made of cartons can support as much weight as 200 kg.”
4. Shanghai Global Financial Hub
Shanghai World Financial Center, shanghai global financial hub is based on Japan's Mori Building Co.,
Ltd. (Mori building corporation) as the center, a joint Japan, the United States, more than 40
41
enterprises to invest in the construction of projects with a total investment of more than 105 billion
yen (more than 1 billion U.S. dollars). 460 meters high in the original design, engineering, land area
of 3 million square meters, total construction area of 381.6 thousand square meters, adjacent to the
Jin Mao Tower. After starting in early 1997, due to the Asian financial crisis, engineering, once
suspended. Project resumed in February 2003. But then the Chinese Taipei and Hong Kong are
under construction, 480 meters high skyscraper, over a global financial center of the original design
height. As Japan's original intention to build world's tallest building remains unchanged, the original
design was revised. The revised World Financial Center, had increased seven-layer, that is, to reach
101 on the ground floor, underground 3 floors, total floor area of about 377,300 square meters.
Building floor plan for underground 2 F to the ground floor are three shopping malls, 3 ~ 5 floor
conference facilities, 7 F to 77 F for office, including two air lobby, respectively, at 28 ~ 29 F and 52 ~
53 F, 79 ~ to 93 floor, the hotel will be Hyatt Group, responsible for management, 90 floor, there are
two typhoons and dampers, 94 to 100 F for sightseeing, viewing facilities, a total of three viewing
platform, 94 of which floor is a "tourist Hall", is one of about 700 square meters of exhibition space
and viewing platform, may hold different types of exhibitions and activities in 97 floor for the
"tourist bridge" in the first layer 100 has designed a top "tourist days Pavilion," about 55 meters the
ground up to 472 meters, surpassing Canada's National Tower's observation deck, more than Doody
thanks to the viewing platform of the Dubai Tower (on the ground 440 meters), and become the
world's highest observation deck.
5. The Old City God's Temple
Old City God's Temple (Laochenghuangmiao) is a major yet relatively inactive, Taoist temple in
Shanghai. It is located in the area south of Yan'an Road on the Fangbang Zhong Road. During the
Ming Dynasty, Zhangshouyue, the head of Shanghai County, dedicated a temple to the local city god.
Since then, the City God's Temple has been destroyed several times and the current temple was
built in 1926. During World War II, local merchants built a new City God's Temple in the Foreign
Concession (between Lianyun Road and West Jinling Road). That area is now a high-rise residence
building. The "former" temple is known as the Old City God's Temple. The Old City God's Temple
and the enclose Yuyuan are not only famous tourist sites but also popular shopping attractions.
There are boutiques, shops selling local specialties, as well as large jewelry stores, department
stores and fabulous local snack restaurants to be found here.
42