detailed program for parallel sessions - The 4th International ...

4th International Conference on
Computational Methods
25 - 28 November 2012
Crowne Plaza Surfers Paradise
Gold Coast | Australia
Conference Handbook
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25 - 28
November
2012,
Crowne
Plaza, Gold
Coast
The ICCM2012 is an international
conference providing an international forum
for exchange ideas on recent advances in
areas related to computational methods,
numerical modelling & simulation, as well as
their applications in engineering and
science.
4th International Conference on
Computational Methods
ICCM2012
Conference Handbook

Dear Colleagues
PREFACE
The ICCM2012, Gold Coast, Australia
On behalf of the organising committee, I am delighted to welcome you to the 4th International Conference
on Computational Methods (ICCM2012) at the Gold Coast, Australia.
The ICCM2012 is an international conference providing an international forum for exchange ideas on recent
advances in areas related to computational methods, numerical modelling & simulation, as well as their
applications in engineering and science. It will accommodate presentations on a wide range of topics to
facilitate inter-disciplinary exchange of ideas in science, engineering and related disciplines, and foster
various types of academic collaborations. All papers accepted for publication in the proceedings will be
subject to a full peer review.
The conference series originated in Singapore in 2004 by Professor GR Liu, followed by ICCM2007 in
Hiroshima, Japan, and ICCM2010 in Zhangjiajie, China. This year, the ICCM2012 conference program
covers over 260 oral presentations in 48 technical sessions, including 4 Plenary talks, 8 Thematic Plenary
talks, and a number of Keynote talks in technical sessions. These presentations cover a broad range of topics
of new advances in computational methods and numerical modelling as well as their applications. I hope
this conference will become one of the most important actives in the relevant research communities.
I would like to use this opportunity to express my gratitude to the Science and Engineering Faculty of
Queensland University of Technology, and all sponsors for their strong support and encouragement. I am
deeply indebted to all the members of the Organising Committees, the mini-symposium organisers, the
reviewers and the session chair people for your strong support and help. I would like to express my special
appreciation and thanks to the Conference General Secretary, Dr. Suvash Saha for his exceptional
commitment and tireless work in organising. The last, but not the least, I would like to convey huge thanks to
Ms Gabrielle Hunter and Ms Rachel Mortimer from QUT Events for their management of the conference.
I hope that you will have a wonderful time at the beautiful Gold Coast, Australia.
A/Professor YuanTong (Y.T.) Gu
Conference Chairman, The ICCM2012
School of Chemistry, Physics and Mechanical Engineering,
Queensland University of Technology,
November 2012
2

CONFERENCE HOUSEKEEPING
Catering
Morning and afternoon teas and Buffet lunches are included in conference registration.
The ICCM2012, Gold Coast, Australia
Instructions for chairs
For all presentations, timeslots are 20 minutes, including 15 minutes of presentation and 5 minutes of
question/discussion. Please stick to the program.
Instructions for oral presenters
The presentation timeslot is 20 minutes, including 15 minutes of presentation with 5 minutes of
question/discussion. The conference provides a laptop with Windows OS for each session. Presenters are
welcome to use their own laptop as well. We strongly encourage you to have a backup of your presentation
on a USB storage device. If using PowerPoint, please bring your file on a USB stick to the room of your
presentation during the break before your session, or 10 minutes before the start of the day’s proceedings.
A volunteer will help you load it. If you want to use your own laptop, please test the compatibility in
advance.
Conference Rooms
Room name Location Application
Acacia Room 2ND Parallel sessions
Cypress Room GRND Parallel sessions
Kauri Room GRND Parallel sessions
Waratah Room 1ST Parallel sessions
Phoenix Room MEZZ Thematic plenary talks, Parallel sessions
Norfolk Room GRND Plenary talks, Thematic plenary talks, Parallel sessions, Conference dinner
Conference satchel
Every registered author will be provided a conference satchel with the Conference Handbook, the USB
Proceedings and other inserts. The ISSN number can be found in the USB Proceedings. The conference
satchel is specially designed to be suitably used for iPad and other mini-laptops.
Name tags
Name tags are your entry to conference events. Please wear them at all times.
Registration/Information desk
Registration/information will be in ground level of Crowne Plaza
16:00‐20:00 pm on Sunday 25/11
8:00 am‐17:00 pm on Monday 26/11
8:00 am‐17:00 pm on Tuesday 27/11
8:00 am‐12:00 pm on Wednesday 28/11.
Wireless Internet
WiFi wireless internet will be available around the registration area. Please get a WiFi wireless key from
the registration desk. Due to the limitation of the user number, please be considerable to keep your using
time as short as possible and log off when you finish your session.
Social events
The Welcome Reception on Sunday 25/11 and the Conference Dinner on Tuesday 27/11 are included in
full registrations. The Conference Dinner will be held at Norfolk Ballroom, Crowne Plaza.
3

ORGANISING COMMITTEE
Chairman:
A/Prof. Gu, Y.T., Australia
Honorary Chairs:
Prof. Betts, M., Australia Prof. Yuan, M.W., China
Prof. Liu, G.R, USA
International organization committee
Co-Chairmen:
The ICCM2012, Gold Coast, Australia
Prof. Okada, H., Japan Prof. Fan, D.N., China
Prof. Youn, S.K., Korea
Members:
Prof. Beer, M., UK Prof. Mai-Duy, N., Australia
Prof. Chen, D., China(Taiwan) Prof. Miyazaki, N., Japan
Prof. Chen, J.T., China(Taiwan) Prof. Ng, T.Y., Singapore
Prof. Chen, W., China Prof. Nie, Y.F., China
Prof. Ding, H., China Prof. Nithiarasu, P., UK
Prof. Du, S.Y., China Prof. Ohayon, R., France
Prof. Fan, S.C., Singapore Prof. Rabczuk, T., Germany
Prof. Feng, X.Q., China Prof. Schaback, R., Germany
Prof. Fish, J., USA Prof. Shi, G., Canada
Prof. Fok, A. USA Prof. Soo-Won Chae Korea
Prof. Gao, Y.Q., China Prof. Tada, N., Japan
Prof. Gao, Y.W., China Prof. Tian, R., China
Prof. Gopalakrishnan, S., India Prof. Wan, D.C., China
Prof. Guan, Z., UK Prof. Wang, C., China
Prof. Guo,X., China Prof. Wang, D.D., China
Prof. Hagihara, S., Japan Prof. Watanabe, K., Japan
Prof. Han, X., China Prof. Wei, G., USA
Prof. Hon, B.C., China(HK) Prof. Wen, P.H., UK
Prof. Hu, P. China Dr. Wu, W., USA
Prof. Idelsohn Barg, S., Argentina Prof. Xiang, Z.H., China
Prof. Iu, V.P., China(Macao) Prof. Xu, X., China
Prof. Kajishima, T., Japan Prof. Xuan, Z.C., China
Prof. Kang, Z., China Prof. Yang, Z., UK
Prof. Kanok-Nukulchai, W., Thailand Prof. Yoshimura Japan
Prof. Kant, T., Japan Prof. Yu, T.X., China(HK)
Prof. Kim, M.K., Korea Prof. Yuan, M.W., China
Prof., Kitamura, T., Japan Prof. Zhang C.L., China
Prof. Li, H., Singapore Prof. Zhang X. China
Prof. Li, M., China Prof. Zhang, C.Z., German
Prof. Li, S. F., USA Prof. Zhang, H.W. China
Prof. Liu, M. B., China Dr. Zheng, Y.G., China
Dr. Liu, Z.S., Singapore Prof. Zhuang, P.H., China
Prof. Lu, J., China(HK) Prof. Zhuang, Z., China
Prof. Ma, G. W., Australia Prof. Zong, Z., China
4

Local organization committee
Chairman:
A/Prof. Gu, Y.T., Australia
Co-Chairmen:
The ICCM2012, Gold Coast, Australia
Prof. Bell, J., Australia Dr. Young, J., Australia
Prof. Turner, I., Australia
Members:
Dr. Chen, G., Australia Prof. Mai-Duy, N., Australia
Prof. Gao, D., Australia Prof. Miller, K., Australia
Prof. Gao, W. Australia Prof. Oloyede, K., Australia
Prof. Guan, H., Australia Dr. Senadeera, W., Australia
Dr. Kelson, N., Australia Prof. Shen, L.M, Australia
Prof. Khalili, N., Australia Prof. Tan, A., Australia
Prof. Jiang, Z., Australia Prof. Tong, L.Y., Australia
Prof. Li, L., Australia Prof. Tran-Cong, T., Australia
Prof. Li, Q., Australia Prof. Xie, Y.M., Australia
Prof. Li, W.H., Australia Prof. Yan, C., Australia
Prof. Lin, W.X., Australia Dr. Yan, W.Y., Australia
Prof. Liu, F.W., Australia Dr. Yang, J., Australia
Dr. Luo, Z. Australia Prof. Yang, R. C. H., Australia
Prof. Ma, G. W., Australia Prof. Yarlagadda, P., Australia
Dr. Ma, J., Australia Dr. Zhang, G. Y., Australia
Prof. Ma, L., Australia Prof. Zhang, H., Australia
Conference General Secretary
Dr. Saha, S., Australia
Conference Management
Ms Gabrielle Hunter QUT Events
Ms Rachel Mortimer QUT Events
5

GETTING TO THE GOLD COAST
The ICCM2012, Gold Coast, Australia
The conference is being held at Crowne Plaza Surfers Paradise, on Queensland's famous Gold Coast,
Australia., i.e., Crowne Plaza Surfers Paradise, 2807 Gold Coast Highway, SURFERS PARADISE, QLD,
AUSTRALIA (View Larger Map ).
Located on Australia’s South-East Queensland coastline, the Gold Coast is serviced by two major airports.
The Brisbane Domestic and International Airport (BNE) is less than one hour drive away, while the Gold
Coast Airport (OOL) is just 30 minutes drive from the centre of Surfers Paradise.
Brisbane Airport
Connected by fast access using the Pacific Motorway or Airtrain, Brisbane’s world-class airport rail link
creates a seamless connection between Brisbane Airport and the Gold Coast. Transport options include:
Rail - Airtrain travels directly from Brisbane Airport and stops at all Gold Coast stations up to 4 times per
hour. Prices vary from $25.80-32.50 (one-way) or $49.60-$63.00 (return) depending on which station you
disembark at. Please note that all stations are then a taxi or bus ride away from Surfers
Paradise/Broadbeach. For more information on the Airtrain including timetables and prices, please visit
http://www.airtrain.com.au/index.php
Airtrain Connect is a premium service for getting you from the Brisbane Airport to the door of your Gold
Coast destination. It involves a train ride to a Gold Coast station (Helensvale, Nerang, Robina or Varsity
Lakes), and then a chauffeured transfer to your accommodation or place of business. The availability of
AirtrainConnect is limited to standard train operating hours. Prices are $45 one-way or $85 return (book
online to save 10%). For more details, please visit http://www.airtrain.com.au/ products_
airtrainconnect.php.
Road – The best way to get from Brisbane Airport to the Gold Coast hotel via road is by coach transfers.
You may use the door to door coach service provided by either one from the following companies.
1) Coachtrans
You can book book a transfer with Coachtrans on-line, please visit http://www.coachtrans.com.au/. The
price is daily from $46 (one-way per person) to $92 (return per person).
2) Extragreen Holidays (Aust) Pty Limited
Please use the following contact information to book your coach via email or phone call.
Contact person: Vicky, Contact Email: vickygu@extragreen.com.au or surfersparadise@extragreen.net.au
Contact Number: +61 07 5538 0725
Price: $45 per one way, $90 for return
Payment method: Cash give directly to driver when arrive or do prepayment by credit card.
3)For other road transport options, please visit http://bne.com.au/to-from-airport/transport-options.
Gold Coast Airport
The Gold Coast Airport is 22km south of central Surfers Paradise. Transport options include:
Taxi – Taxis are available directly outside the terminal. A taxi ride to Surfers Paradise costs
approximately $50-$60. For more information, please visit http://www.gccabs.com.au/airport-taxis/
Shuttle Transfer – The Gold Coast Tourist Shuttle offers door to door transfers from Gold Coast Airport
to any Gold Cost hotel with prices ranging from $19 (one-way) – $35 (return). For more information or to
book a transfer, please visit http://www.gcshuttle.com.au/index.htm
Bus – Local bus route 702 leaves from directly in front of the Domestic arrivals/baggage collection area,
every half hour and runs directly up the Gold Coast Highway through Surfers Paradise to Southport. This
journey can take anywhere between 45-65 minutes and a one-way ticket is $6.90.
6

PLENARY SPEAKERS
The ICCM2012, Gold Coast, Australia
Name: Professor Joe Monaghan
Institution: Monash University
Talk Title: Leonardo da Vinci's turbulent tank and other complex fluid dynamical problems
Web Page: http://users.monash.edu.au/~jjm/Welcome.html
Name: Professor Tayfun Tezduyar
Institution: Rice University
Talk Title: Space–Time Computational Fluid–Structure Interaction Techniques
Web Page: http://www.tafsm.org/~tezduyar/
Name: Professor Gui-Rong Liu
Institution: University of Cincinnati
Talk Title: Smoothed Finite element Methods: A Review
Web Page: http://aerospace.ceas.uc.edu/people/people_fac-staff/fac-staff/fac/g_r_liu.html
Name: Dr. Eng Lim Goh
Institution: SGI (Senior Vice President & Chief Technology Officer)
Talk Title: From High Performance to Data Intensive Computing
Web Page:
THEMATIC PLENARY SPEAKERS
Name: Professor Karol Miller
Institution: The University of Western Australia
Talk Title: Real-Time Finite Element and Meshless Methods for Computational Biomechanics for
Medicine
Web Page: http://school.mech.uwa.edu.au/~kmiller/
Name: Professor Chwee Teck Lim
Institution: National University of Singapore
Talk Title: Cell Mechanics and the Pathology of Human Diseases – Modeling & Experiments
Web Page: http://www.bioeng.nus.edu.sg/nanolab/nanolab.html
Name: Professor Daining Fang
Institution: Peking University
Talk Title: Nonlinear electromechanically coupled computational mechanics methods for
piezo/ferroelectric materials at multiscales
Web Page: http://web5.pku.edu.cn/engineering/Faculty/facultyD/
Mechanics/2346.htm
7

Name: Professor Xiqiao Feng
Institution: Tsinghua University
Talk Title: Surface wrinkling and morphological evolution of soft materials
Web Page: http://cnmm.tsinghua.edu.cn/channels/168.html
The ICCM2012, Gold Coast, Australia
Name: Professor Hiroshi Okada
Institution: Tokyo University of Science
Talk Title: Development of crack propagation analysis software system using the tetrahedral finite
element and remeshings
Web Page: http://www.sut.ac.jp/en/fac/p/index.php?5d1b
Name: Professor Sau Cheong Fan
Institution: Nanyang Technological University
Talk Title: Challenges in simulation of break-up of concrete magazine and the debris throw
Web Page: http://www.cee.ntu.edu.sg/AboutCEE/Faculty%20Directory
/Pages/SM_cfansc.aspx
Name: Professor Noriyuki Miyazaki
Institution: Kyoto University
Talk Title: Application of Computational Solid Mechanics to Reliability Studies of Electronic
Packaging
Web Page: http://solid.me.kyoto-u.ac.jp/miyazaki_English/miyazaki.html
Name: Professor Moubin Liu
Institution: Institute of Mechanics, Chinese Academy of Sciences
Talk Title: SPH modelling of free surface flows with moving rigid objects
Web Page: http://lho.imech.ac.cn/webch/User_Show.asp?UserID=161
8

PLENARY TALKS
Professor Joe J. Monaghan FAA
School of Mathematical Sciences, Monash University, Australia
Title: Leonardo da Vinci's turbulent tank and other complex fluid dynamical problems.
The ICCM2012, Gold Coast, Australia
Abstract: Many complex fluid dynamical problems involving several fluids and moving bodies can be simulated
efficiently by using meshless methods such as Smoothed Particle Hydrodynamics. In this talk I will illustrate the
general principles of particle methods and their application to Leonardo da Vinci's problem which appears simple but
has astonishingly complicated dynamics. Other problems involving moving bodies will also be described. My talk will
finish by discussing developments of particle methods which give greater accuracy and higher speeds.
Bio data: Education: M.Sc University of Western Australia 1962, Ph.D. University of Cambridge 1965, Monash
University: Lecturer 1968, Senior Lecturer 1969, Reader 1971, Professor 1989-. Fellowships: Fellow Churchill
College, Cambridge 1964-1966, Morrison Post-Doctoral Fellow, University of California, Santa Cruz 1967-1968,
Fellow of the Joint Institute of Laboratory Astrophysics 1973. Fellow of the Australian Academy of Science 2011.
Special lectures: George Batchelor Lecturer, Aust. Fluid. Mech. Conference 2007. First ANZIAM lecturer, Aust. Math.
Soc. 2007. Distinguished Lecturer, Leicester U.K. CSIRO Research Achievment Medal 1999. Numerous Keynote
lectures at International conferences. Research: Inventor and developer of Smoothed Particle Hydrodynamics for the
simulation of cosmological problems, galaxies, star formation, and complex fluids interacting with solids producing
breaking waves and other complex phenomena. He has published 140 Journal papers, of which 2 have over 1000
citations. His h index is 39, and he has received $1.66 million in research grants.
Professor Tayfun E. Tezduyar
Mechanical Engineering, Rice University, USA
Title: Space–Time Computational Fluid–Structure Interaction Techniques
Abstract: Since its introduction in 1991 for computation of flow problems with moving boundaries and interfaces, the
Deforming-Spatial-Domain/Stabilized Space–Time (DSD/SST) formulation has been applied to a diverse set of
challenging problems. The classes of problems computed include free-surface and two-fluid flows, fluid–object, fluid–
particle and fluid–structure interaction (FSI), and flows with mechanical components in fast, linear or rotational relative
motion. The DSD/SST formulation, as a core technology, is being used for some of the most challenging FSI problems,
including parachute modeling and arterial FSI. Versions of the DSD/SST formulation introduced in recent years serve
as lower-cost alternatives, and more recent variational multiscale (VMS) version, which is called DSD/SST-VMST, has
brought better computational accuracy and serves as a reliable turbulence model. Special space–time FSI techniques
introduced for specific classes of problems, such as parachute modeling and arterial FSI, have increased the scope and
accuracy of the FSI modeling in those classes of computations. The lecture will provide an overview of the core space–
time FSI technique, its recent versions, and the special space–time FSI techniques. It will also provide examples from
parachute FSI, arterial FSI, and aerodynamics of flapping wings.
*This is a joint work with Professor Kenji Takizawa, Department of Modern Mechanical Engineering and Waseda
Institute for Advanced Study, Waseda University, Tokyo.
Bio data: Professor Tezduyar received his Ph.D. from Caltech in 1982. After postdoctoral work at Stanford, he had
faculty positions at University of Houston and University of Minnesota. At Minnesota he became full professor in 1991
and was named Distinguished McKnight University Professor in 1997. He joined Rice University in 1998 as James
Barbour Professor in Mechanical Engineering. Dr. Tezduyar holds a 1986 Presidential Young Investigator Award from
the National Science Foundation. He received the 1997 Computational Mechanics Award of the Japan Society of
Mechanical Engineers, 1997 Computational Fluid Dynamics Award of the US Association for Computational
Mechanics, and 1998 Computational Mechanics Award of the International Association for Computational Mechanics.
He is a Fellow of the American Society of Mechanical Engineers, US Association for Computational Mechanics,
International Association for Computational Mechanics, American Academy of Mechanics, and the School of
Engineering at University of Tokyo. He is an Editor of Computational Mechanics and an Associate Editor of
Mathematical Models and Methods in Applied Sciences.
9

Professor Gui-Rong Liu
School of Aerospace Systems, University of Cincinnati, USA
Title: Smoothed Finite Element Methods: A Review
The ICCM2012, Gold Coast, Australia
Abstract: Along the development of meshfree methods, we have moved beyond the finite element method (FEM), and
found an excellent way to combine the techniques of meshfree and FEM. This has led the development of the smoothed
finite element methods (S-FEM) that combines the existing standard FEM and the existing strain smoothing techniques.
The S-FEM is a special case of the so-called smoothed point interpolation methods (S-PIM), when FEM shape
functions are used. It is a soft model, in contrast to the FEM that is known as stiff model. Compared to the meshfree
techniques, it is very easy to implement and use because it has a lot of similarities as the FEM that is familiar to many.
The results of the study on S-FEM in many applications showed crucial significances: (1) S-FEM models are always
“softer” than the standard FEM, promising to provide more effective numerical solutions; (2) S-FEM models give more
freedom and convenience in constructing shape functions for special purposes or enrichments (e.g, various degree of
singular field near the crack-tip, highly oscillating fields, etc.); (3) S-FEM models allow the use of distorted elements
and general n-sided polygonal elements; (4) NS-FEM offers a much simpler tool to estimate the quality of the solution
(global error, bounds of solutions, etc) for many types of problems; (5) the αFEM, a combination of some S-FEM
models, can offer solutions of very high accuracy. This article provides a short review on the works on the S-FEM
performed in the past years primarily by Liu’s group. We are aware of the fact that many other groups have also pick-up
the S-FEM and made substantial contributions, but we are still in the process of including their works in a formal
review article in a journal. We will try to include as much as possible all these works in Liu’s oral plenary lecture, but
this article will not allow us to do so, due the time limitations.
Bio data: Dr. GR Liu received PhD from Tohoku University, Japan in 1991. He was a Postdoctoral Fellow at
Northwestern University, USA from 1991-1993. He is currently a Professor, Ohio Eminent Scholar and School Faculty
Chair at the School of Aerospace Systems, University of Cincinnati. He served as a Deputy Head of the Department of
Mechanical Engineering, the Director of the Centre for Advanced Computations in Engineering Science (ACES),
National University of Singapore, and the President of the Association for Computational Mechanics. He is the
President of the Asia-Pacific Association for Computational Methods, and an Executive Council member of the
International Association for Computational Mechanics. He authored a large number of international journal papers and
books including two bestsellers: “Mesh Free Method: moving beyond the finite element method” and “Smoothed
Particle Hydrodynamics: a Meshfree Particle Methods.” He is the Editor-in-Chief of the International Journal of
Computational Methods, Associate Editor of the international technical journal Inverse Problems in Science and
Engineering (IPSE), and served as an editorial member of five other journals including the IJNME.
Dr. Eng Lim Goh
Senior Vice President & Chief Technology Officer, SGI
Title: From High Performance to Data Intensive Computing
Abstract: From the sources of Big Data to its subsequent ingest, storage, analysis, visualisation and actionable decision
stages, challenges abound. We will discuss solutions to them, starting with high performance computing, as our
traditional source, to sensors and social interactions. Next comes the ingest stage where scale is causing these systems
to have as many nodes as that of the analysis stage. For the storage stage, again at such large scales, tape can be too
slow, flash can be too expensive and a million spinning disks can consume multi megawatts of power. In the analysis
stage, we differentiate solutions ranging from extracting "needle in a haystack" to "relationship between hay in a stack".
There are also visualisation challenges. For example, a three dimensional space with a billion grid points is already
considered large. How then do we effectively support the analyst in visualizing a trillion-point dataset, where a
thousand of those data points could be sitting on the same grid location.
Bio data: Dr. Goh joined SGI in 1989, becoming a chief engineer in 1998 and then chief technology officer in 2001. He
oversees technical computing programs with the goal to develop the next generation computer architecture for the new
many-core era. In 2005, InfoWorld named Dr. Goh one of the World's 25 Most Influential CTOs. That same year he
was also included in the HPCwire list of "15 People to Watch." In 2007, he was named "Champions 2.0" of the industry
by BioIT World magazine, and received the HPC Community Recognition Award from HPCwire. Dr. Goh is a frequent
industry speaker and he continues to discuss, in different forums, innovative technologies and their applications. Before
joining SGI, Dr. Goh worked for Intergraph Systems, Schlumberger Wireline and Shell Research. A Shell Cambridge
University Scholar, Dr. Goh completed his Ph.D. research and dissertation on parallel architectures and computer
graphics, and holds a first-class honors degree in mechanical engineering from Birmingham University in the U.K. Dr.
Goh has been granted four U.S. patents, two of which as the inventor and the others as co-inventor.
10

THEMATIC PLENARY SPEAKERS
Professor Karol Miller
The University of Western Australia, Australia
The ICCM2012, Gold Coast, Australia
Title: Real-Time Finite Element and Meshless Methods for Computational Biomechanics for Medicine
Abstract: Mathematical modelling and computer simulation have proved tremendously successful in engineering. One
of the greatest challenges for mechanists is to extend the success of computational mechanics to fields outside
traditional engineering, in particular to biology, biomedical sciences, and medicine. By extending the surgeon’s ability
to plan and carry out surgical interventions more accurately and with less trauma, Computer-Integrated Surgery (CIS)
systems could help to improve clinical outcomes and the efficiency of health care delivery. CIS systems could have a
similar impact on surgery to that long since realized in Computer-Integrated Manufacturing (CIM). However, before
this vision can be realised the following two challenges must be met: Challenge 1. Real-time (or near-real-time)
computations; Challenge 2. Efficient generation of computational grids from medical images of human organs. In this
lecture I describe how the Intelligent Systems for Medicine Laboratory addresses these challenges by using explicit
dynamics and dynamic relaxation algorithms implemented on GPU and developing a concept of an “image as a model”.
Bio data: Professor Karol Miller was born and educated in Warsaw, Poland. He spent two years (1995-1996) as the
STA Postdoctoral Fellow in Mechanical Engineering Laboratory, AIST, Tsukuba, Japan. Since December 1996 he has
been with The University of Western Australia where he now is Winthrop Professor of Applied Mechanics. He is also
an Honorary Distinguished Professor at Cardiff University and has been a Leverhulme Visiting Professor at the Civil
and Computational Engineering Centre (C2EC) at Swansea University and a Senior Oden Fellow at The Institute for
Computational Engineering and Sciences (ICES) at the University of Texas at Austin. Prof. Miller is a specialist in the
area of modelling and computer simulation in biomechanics. He is the founder and director of the Intelligent Systems
for Medicine Laboratory http://school.mech.uwa.edu.au/ISML/ at The University of Western Australia. Prof. Miller’s
contributions include mathematical models of brain deformation behaviour (the world’s most frequently cited) and
close-to-real-time finite element and meshless algorithms. Prof. Miller’s contributions to GPU-based computations have
been recognised e.g. by award of research funds under NVIDIA Professorship Partnership Program and the title of
NVIDIA GPU Computing Champion. Prof. Miller had been the editor of Australian Journal of Mechanical Engineering
(2010-2012) and sits on editorial boards of major journals in the areas of biomechanics and numerical methods.
Professor Miller organises and chairs "Computational Biomechanics for Medicine" workshop series
(http://cbm.mech.uwa.edu.au/) associated with the Medical Image Computing and Computer Assisted Intervention
Society conferences (MICCAI). In 2012 he received the Institution of Engineers Australia’s Sir George Julius Medal.
His book “Biomechanics of the brain”, Springer NY – the world’s first comprehensive reference in this area of research
– is now available.
Professor Chwee Teck Lim
National University of Singapore, Singapore
Title: Cell Mechanics and the Pathology of Human Diseases – Modeling & Experiments
Abstract: Human diseases can affect our health and well-being by impairing our bodily structures and functions. In
particular at the cell level, some diseases can give rise to or arise from mechanical and structural property changes in the
cells. Such changes have been known to manifest in several human diseases such as malaria, sickle cell anemia and
cancer. These abnormal cellular mechanical property changes have also been known to disrupt normal physiological
functions, which will eventually give rise to the pathology of diseases.
Several physical changes such as size, deformability and adhesion can occur at the cell level they often reflect the
molecular and structural reorganization of the cell. As these changes occur at the micro and nanoscale, advanced micro-
and nanotechnological tools are needed to probe such minute changes in the cell. State-of-the-art tools such as optical
traps, atomic force microscope and microfluidics have been used to quantitatively probe the deformability and adhesion
changes of diseased cells with resolutions of forces and displacements down to piconewton and nanometer scale,
respectively. Computational models have also been developed to better understand the mechanical property changes at
the sub-cellular level within the cell and how this ultimately influences the overall mechanical properties of the cell.
Here, we will examine the mechanopathology of malaria and cancer, and the accompanying cellular structuremechanical
property-function relationship changes from the molecule to cell levels using such tools. It is hope that we
will not only better understand the pathology of these diseases, but also explore their cellular mechanical property
changes as possible biomarkers in their detection and diagnosis.
11

The ICCM2012, Gold Coast, Australia
Bio data: Professor Lim is a Professor of Bioengineering and Mechanical Engineering at the National University of
Singapore. He conducts basic and applied research in cell and molecular biomechanics of human diseases. Prof Lim has
authored more than 200 journal papers (including 30 invited/review articles), 19 book chapters and delivered more than
190 invited talks. He is currently on the editorial boards of 11 international journals. Prof Lim was recently elected as a
Council Member of the World Council for Biomechanics. Prof Lim has won several research awards and honors
including the Asian Entrepreneurship Award 2012, HFSP Research Grant Award 2012, President's Technology Award
2011, IES Prestigious Engineering Achievement Award 2010, Faculty Research Award 2010 as well as best paper
awards in international conferences. His research was featured by the MIT Technology Review magazine as one of the
top ten emerging technologies of 2006 that will "have a significant impact on business, medicine or culture"
Professor DaiNing Fang
College of Engineering, Peking University, P.R. China
Title: Nonlinear electromechanically coupled computational mechanics methods for piezo/ ferroelectric materials at
multiscales
Abstract: This paper systematically summarizes the work in the field of multiscale electromechanically coupled
computational methods for piezo/ferroelectric material, including the electromechanically coupled first-principles
method, ferroelectric molecular dynamics, atomic-level finite element method, phase field method, Monte-Carlo
method, and finite element method.
The first-principles method is employed to explore the behaviour of the cross-sectional polarization field for thin
nanowires of barium titanate. Topological defects of different winding numbers have been obtained, beyond the known
textures in ferroelectric nanostructures. A shell-model based molecular dynamics method is developed for nanoscale
ferroelectrics, which is validated by first-principles calculations and furthermore utilized to investigate both the size
effect and strain effect of BaTiO3 ultrathin film. A novel atomic-level computational method of perovskite ferroelectrics
is established by combining the shell model and atomic-scale finite element method (AFEM). Furthermore, the
simulations not only reproduce well the two-step 90 o domain switching process observed in experiments on single
domain under an anti-parallel electric field, but also provide a full evolution diagram among different domain patterns
under various electric fields.
An unconventional phase field method is proposed to investigate the size dependence of domain configuration and
evolution in ultrathin ferroelectric films. The simulations reveal that four types of compatible domain structures exist at
different thickness. A two-scale micromechanics model is developed to analyze domain switching in ferroelectric
ceramics, using a probabilistic domain switching criterion based on energetic analysis. The model has been
implemented by Monte Carlo method, and applied to simulate the electric poling and mechanical depoling of Pb(ZrxTi1x)O3
(PZT) ceramics across morphotropic phase boundary (MPB). The numerical format of electromechanically
coupled meshless method is established and employed to study two problems, the stress field of multi-layer actuator
containing electrode and the interface crack problem between piezoelectric film and substrate. The numerical format of
nonlinear electromechanically coupled finite element method is established, and a new domain switching criterion
based on the Gibbs free energy is proposed which can predict the domain switching behavior with high accuracy and
manage to capture the evolution of the domain.
Bio data: In 1993, Professor Fang got his PhD from Technion-Israel Institute of Technology. He has published four
books as well as more than 200 papers in international journals and got more than 2000 citations, and has been awarded
20 national patents. He has received many awards for his research, including the National Outstanding Youth Scientist
by NSFC, an award of Trans-century Youth Talent by Ministry of Education of China. He has won two National
Natural Science Prize from Ministry of Science and Technology of China, and four Science and Technology prizes
from Ministry of Education of China. His research Interests include (1) Mechanics of electromagnetic materials and
microelectronics devices; (2) Mechanics of advanced lightweight composite materials and structures. (3)
Micromechanics and physics-based models at multiscales. Prof. Fang holds: “Yangtze River” Distinguished Professor
of MEO of China; Maishitong Chair Professor of Peking University; Senior Associate Dean, College of Engineering,
Peking University; Vice Chairman of Asia-Pacific Society of Mechanics of Materials; Vice Chairman of Chinese
Society of Composite Materials; Chairman of Testing-Machine committee of Chinese Society of Instrument; Associate
Editor, ASME Journal of Applied Mechanics; Associate Editor, Inter J of Aerospace Lightweight Strucs.
12

Professor XiQiao Feng
Department of Engineering Mechanics, Tsinghua University, P.R. China
Title: Surface wrinkling and morphological evolution of soft materials
The ICCM2012, Gold Coast, Australia
Abstract: Surface instability and morphological evolution of such soft materials as gels and biological tissues is a
major concern in a wide diversity of fields, e.g., soft lithography, metrology, flexible electronics, and biomedical
engineering, and therefore have received much attention. In this talk, surface instability of soft materials and biological
tissues are discussed within the framework of continuum mechanics. Firstly, a generic method is presented for
analyzing the surface stability of a thin film resting on a substrate with arbitrary geometry. Secondly, the growth and
buckling of mucosas that commonly line organs and cavities throughout the animal body are analyzed theoretically,
numerically and experimentally. Finally, the surface wrinkling of soft core-shell matters induced by swelling or
shrinking is investigated. The results demonstrate that the evolution of the sphere may be characterized by a process of
smooth surface, buckyball-like wrinkling pattern, and then undergoing a wrinkling-to-fold transition into labyrinth-like
folded patterns, in agreement with our experimental observations.
Bio data: Professor Xi-Qiao Feng is a Chang Jiang Chair Professor and the head of Department of Engineering
Mechanics, Tsinghua University. He earned a Ph.D. degree in Solid Mechanics in 1995 at Tsinghua University. From
1997 to 1999, he worked as a Humboldt research fellow in Technical University of Darmstadt and Delft University of
Technology. He rejoined Tsinghua University as an associate professor in 1999 and was promoted to a professor in
2001. Selected Feng’s honors include Award of Science and Technology for Young Scientists of China (2007),
Distinguished Young Scholars Award of NSFC (2005), Young Scientist Award of Fok Ying Tong Education
Foundation (2004), and Award for Best Doctoral Theses of China (1999). Currently, he is the secretary-general of
Chinese Society of Theoretical and Applied Mechanics and the director of Institute of Biomechanics and Medical
Engineering. He also serves as a member of editorial board of more than 10 journals. His current interests include
molecular and cellular biomechanics, mechanics of biomaterials and soft matter, and fracture mechanics. He has
authored and co-authored two books and 200 journal papers.
Professor Hiroshi Okada
Tokyo University of Science, Japan
Title: Development of crack propagation analysis software system using the tetrahedral finite element and remeshings
Abstract: In this research, we have been developing a fracture/crack propagation analysis system for damaged
structures. The system can fully automate the crack propagation analysis. The analysis system is based on the Finite
Element Method (FEM) to perform the solid mechanics analysis, the Delaunay tessellation technique to generate the
finite element mesh and the Virtual Crack Closure-Method (VCCM) to compute the energy release rates and the stress
intensity factors. The second order tetrahedral element is adopted to perform the finite element computations so that we
can automate the mesh generation processes by using the Delaunay tessellation technique. VCCM for the tetrahedral
element that was proposed by Okada et al. is adopted to compute the crack parameters. Programs to perform above
mentioned processes along with predictions for the crack propagation direction and rate based on an appropriate
criterion. Thus, the processes can fully be automated. In the presentation, the crack propagation analysis system and
some numerical examples including some industrial and practical problems will be described.
Bio data: BS.: Tokyo University of Science, 1986; Ph.D.: Georgia Institute of Technology, School of Civil
Engineering, 1990; 1990-1991: Post Doctoral Fellow, Georgia Institute of Technology; 1992-1993: Nissan Motor Co.,
Ltd.; 1993-1996: Research Engineer, Georgia Institute of Technology; 1996-2009: Associate Professor, Kagoshima
University; 2009-current: Professor, Tokyo University of Science.
Professor Sau Cheong Fan
Nanyang Technological University, Singapore
Title: Challenges in simulation of break-up of concrete magazine and the debris throw
Abstract: To determine the potential hazard zone around an ammunition storage magazine may not attract much
attention of researchers who are not working on explosive safety. However, the challenges encountered in numerical
simulation of the event are common to the computational community. The challenges stretch across many fields. It
13

The ICCM2012, Gold Coast, Australia
involves multi-materials, highly-dynamic physics and chemistry. There are plenty of rooms for researchers in
computational scientists to offer solutions to those challenges.
Here, the challenges are grouped under three categories as follow.
Material models: To derive the debris pieces form an initially intact concrete structure, it needs to go through several
stages of simulations. Firstly, the explosive changes from solid state to gas state. It demands an accurate equation of
state (EoS) which takes into account the time effect of burning rate. Secondly, the highly-pressurized gas (and air)
inside the magazine interacts with the containing concrete structure. It requires a sound algorithm for interaction
between Lagrangian and Eulerian elements to ensure little leakage. Thirdly, the concrete structure breaks up into debris.
It demands a physics-based criterion for the fractural strength of concrete material to yield a realistic debris mass
distribution. In defining the fracture strength under high strain rate, implementation of the dynamic magnification factor
remains controversial.
Flight aerodynamics: As the overpressure diminishes, the propelling force ceases and the debris begins its decelerating
flight with different launching velocities. The accurate flight path can be derived from a set of differential equations
having variable coefficients, involving physics of lift, drag and spin of debris flying from low speed to high speed
(compressive flow) up to nearly Mach 1. In addition, cloud effect of the massive flying debris needs to be included.
Unfortunately, little information is available for all these coefficients. Experimental investigation for selective cases and
expanded by CFD simulation could offer a practical solution.
Roll and bounce of debris: The debris may rebound upon its first and subsequent hitting of the ground, it could be still
hazardous as its kinetic energy (mv2/2) may be large enough to cause casualty, particularly when the impact angle is
small that causes the debris to ricochet with much of the kinetic energy remained. Little information for ricochet of
debris is available. Once again, experimental investigation for selective cases and expanded by ALE simulation could
offer a practical solution.
Bio data: Dr. Fan currently is a Professor with the School of Civil and Environmental Engineering at Nanyang
Technological University(NTU), Singapore. He specializes in numerical analyses of structures. He has been actively
serving the numerical community for over twenty years, including as Member of the General Council of the Asia
Pacific Association of Computational Mechanics (APACM), was Deputy Director of the Center for Advanced
Numerical Engineering Simulations (CANES) set up in NTU, and was chairman/secretary of the organizing committee
of many international conferences. Also, Professor Fan has been in the university education for nearly thirty years, with
the major span of time serving NTU, where he developed and promoted the advanced courses on structural analyses.
Currently, his research focus is on numerical modeling of concrete material and fluid-structure interactions, including
applications to explosive-blast-magazine interaction. He is the Principal Investigator of the Explosive Safety program
on debris hazard in NTU.
Professor Noriyuki Miyazaki
Kyoto University, Japan
Title: Application of Computational Solid Mechanics to Reliability Studies of Electronic Packaging
Abstract: Research activities on the application of computational mechanics in the reliability study of electronic
packaging performed by a research group in Kyoto University are briefly introduced. Among them I will talk about the
following two topics in detail: (1) Application of fracture mechanics to popcorn-cracking of plastic packages : Plastic
packaging is the most popular technique to protect electronic devices from the external environment because of low cost
and ease of manufacture. Plastic packages, however, sometimes fail due to cracks in the molding resin during the solder
reflow process, when they absorb moisture. Such failure is called popcorn-cracking. Quantitative evaluation method is
presented for the popcorn-cracking by using fracture mechanics. (2)Improvement of the numerical analyses by the
strain measurement using the digital image correlation method (DICM) : Numerical methods such as FEM have been
used to evaluate the reliability of electronic packages. However, the accuracy of numerical analyses of electronic
packages should be confirmed by experimental measurements, because such analyses are nonlinear and very sensitive
to the properties of constituent materials in the electronic packages. In this study, we evaluate the strain distribution in
FC (flip chip) packages with a multi-layered PCB (print circuit board) by two methodologies. One is an experimental
method known as DICM, and the other is the numerical method, FEM, with consideration of visco-elastic, elasto-plastic
and creep behaviors. The measured results are compared with those of the finite element analyses. It is pointed out that
the relaxation of Poisson's ratio of underfill resin must be considered for the accurate FE analyses.
Bio data: Professor Miyazaki is a Professor of Mechanical Engineering and Science at Kyoto University. He received
his Ph.D degree in Nuclear Engineering from University of Tokyo in 1977. After working at Japan Atomic Energy
Research Institute as a Research Scientist for six years, he became an Associate Professor of Chemical Engineering at
Kyushu University in 1983 and a Full Professor in 1996. He joined Kyoto University in 2004 as a Full Professor.
Professor Miyazaki was President of Japan Association for Computational Mechanics (JACM) and Chairman of
14

The ICCM2012, Gold Coast, Australia
Computational Mechanics Division in Japan Society of Mechanical Engineers (JSME). He is now a General Council
Member of Asian-Pacific Association for Computational Mechanics (APACM) and International Association for
Computational Mechanics (IACM). His research field is computational sold mechanics, especially the application of
computational mechanics to the reliability studies of electronics packaging and the atomistic simulations of hydrogen
embrittlement. He has published more than 250 journal papers. Professor Miyazaki received a lot of awards, for
example, ICES K. Washizu Medal in 2000, JSME Computational Achievement Award in 2001, JSME Computational
Mechanics Award in 2005, JACM Computational Mechanics Award in 2007, APACM Computational Mechanics
Award in 2007, JSME Medal in 2009, JSME Materials & Mechanics Achievement Award in 2011 and so on. He is an
Editorial Board Member for several international journals.
Professor Moubin Liu
Institute of Mechanics, Chinese Academy of Sciences, China
Title: SPH modelling of free surface flows with moving rigid objects
Abstract: This paper presents a computational model for free surface flows interacting with moving rigid bodies. The
model is based on the smoothed particle hydrodynamics (SPH) method, which is a popular meshfree, Lagrangian
particle method and can naturally treat large flow deformation and moving features without any interface/surface
capture or tracking algorithm. Fluid particles are used to model the free surface flows which are governed by Navier-
Stokes equations, and solid particles are used to model the dynamic movement (translation and rotation) of moving
rigid objects. The interaction of the neighboring fluid and solid particles renders the fluid-solid interaction, and the
non-slip solid boundary conditions. The SPH method is improved with corrections on the SPH kernel and kernel
gradients, enhancement of solid boundary condition, and implementation of RANS turbulence model. A number of
numerical examples including complex free surface flows, water entry and exit, liquid sloshing, oil spill and boom
failure are provided. The obtained numerical results show good agreement with results from other sources, and clearly
demonstrate the effectiveness of the presented meshfree particle model in modeling free surface flows with moving
objects.
Bio data: Professor M. B. Liu is a professor at the Institute of Mechanics, Chinese Academy of Sciences (CAS). He
obtained Bachelor and Master of Engineering from Xi’an Jiaotong University, China, and PhD from National
University of Singapore. His research interest focuses on computational fluid and solid dynamics with grid-based and
meshfree particle-based numerical methods. He has developed some original numerical models for the smoothed
particle hydrodynamics (SPH) method and dissipative particle dynamics (DPD) method, and has extended SPH and
DPD to some complex fluid flow and fluid-solid interaction (FSI) problems. He has received a number of awards from
different universities and scientific organizations worldwide. Some recent awards include the Innovation Award from
the All-China Federation of Returned Overseas (2012), the 100 Talent Program Award from CAS (2009), the Young
Investigator Award from the Asia Pacific Association of Computational Mechanics (APACM) (2007) and the
prestigious Lee Kuan Yew Fellowship Award from the Nanyang Technological University (NTU) (2005). He is the
Editorial Board Member of three international journals, and author of some 80 papers, and reviewer of more than 50
international journals on different areas of computational fluid and solid dynamics.
15

Date Time
(Start-End)
Sunday
25/11/2012
Monday
26/11/2012
PROGRAMME OVERVIEW
16:00-20:00 Registration
18:00-20:00 Registration, Welcome Reception
The ICCM2012, Gold Coast, Australia
8:00-8:30 Opening Ceremony (Norfolk Room), Professor Martin Betts, Executive Dean, Science and Engineering Faculty, QUT
8:30-9:15 Plenary Talk (Norfolk Room): Professor Joe Monaghan
9:15-10:00 Plenary Talk (Norfolk Room): Dr. Eng Lim Goh
10:00-10:30 // Morning Tea
Acacia Room Cypress Room Kauri Room Norfolk Room Phoenix Room Waratah Room
10:30-12:30 MS-01 (1) MS-23 (1) MS-19&24 (1) MS-13 (1) MS-14 (1) MS-04 (1)
12:30-13:30 // LUNCH
Norfolk Room Phoenix Room
13:30-14:10 Thematic Plenary Talk # 1: Professor Daining Fang Thematic Plenary Talk # 2: Professor Noriyuki Miyazaki
Acacia Room Cypress Room Kauri Room Norfolk Room Phoenix Room Waratah Room
14:20-15:40 MS-10 MS-23 (2) MS-19&24 MS-02 MS-14 (2) MS-04 (2)
15:40-16:00 // Afternoon Tea
Acacia Room Cypress Room Kauri Room Norfolk Room Phoenix Room Waratah Room
16:00-18:00 MS-01 (2) MS-11 (1) MS-19&24 (2) MS-13 (2) MS-14(3) MS-06 (1)
16

Tuesday
27/11/2012
Wednesday
28/11/2012
8:30-9:15 Plenary Talk(Norfolk Room): Professor Tayfun Tezduyar
9:15-10:00 Plenary Talk(Norfolk Room): Professor Gui-Rong Liu
The ICCM2012, Gold Coast, Australia
10:00-10:30 // Morning Tea
Acacia Room Cypress Room Kauri Room Norfolk Room Phoenix Room Waratah Room
10:30-12:30 MS-15 (1) MS-11 (2) MS-09 (1) MS-20 (1) MS-07 (1) MS-06 (2)
12:30-13:30 // LUNCH
Norfolk Room Phoenix Room
13:30-14:10 Thematic Plenary Talk # 3: Professor Xiqiao Feng Thematic Plenary Talk # 4: Professor Hiroshi Okada
Acacia Room Cypress Room Kauri Room Norfolk Room Phoenix Room Waratah Room
14:20-15:40 MS-15(2) MS-16 (1) MS-23(3) MS-17 (2) MS-07 (2) MS-08 (2)
15:40-16:00 // Afternoon Tea
Acacia Room Cypress Room Kauri Room Norfolk Room Phoenix Room Waratah Room
16:00-18:00 MS-05 MS-16(2) MS-09 (2) MS-20 (2) MS-17 (1) MS-08 (1)
19:00-22:00 Conference Dinner, Norfolk Room
Norfolk Room Phoenix Room
8:30-9:10 Thematic Plenary # 5: Professor Karol Miller Thematic Plenary # 6: Professor Sau Cheong Fan
9:10-9:50 Thematic Plenary # 7: Professor Chwee Teck Lim Thematic Plenary # 8: Professor Moubin Liu
9:50-10:30 // Morning Tea
Acacia Room Cypress Room Kauri Room Norfolk Room Phoenix Room Waratah Room
10:30-12:30 MS-26 (1) MS-16 (3) MS-12 MS-26 (2) MS-22 MS-17 (3)
12:30-13:30 // LUNCH
13:30-15:10 MS-26 (3) MS-26 (8) MS-26 (5) MS-26 (4) MS-26 (6) MS-26(7)
Close
17

MINI SYMPOSIA
The ICCM2012, Gold Coast, Australia
ID MS Title Mini-symposium Chair Mini-symposium Co-Chair(s)
MS-01 Computational Methods for Fractional Differential Equations Fawang Liu Ian Turner
MS-02 Development of Novel Computational Methods for Modeling of Materials
Interface and Phase Transition
MS-04 Recent Advances in Meshfree/Particle Methods and Related Technologies Seiya Hagihara Seiichi Koshizuka, Yuzuru Sakai
Hua Li
MS-05 Fracture modelling of composite materials Zhenjun Yang
MS-06 Recent Development (or Advanced Topics) on Optimisation and Control of
Mechanical and Structural Systems
Haiping Du Weihua LI
MS-07 Recent developments of Generalized/Extended Finite Element Methods Rong Tian Hitoshi Matsubara, Yan Liu, Qinglin Duan
MS-08 High-order numerical methods for solving PDEs T. Tran-Cong N. Mai-Duy
MS-09 Computer Simulation using Particle Methods Moubin Liu YuanTong GU
MS-10 Intelligence Information Processing and Engineering Computation Chunliang Zhang
MS-11 Computational Microstructural Modelling and Material Design Alireza Asgar Qing Li
MS-12 Buoyant-driven Flows Wenxian Lin
MS-13 High Performance Computing and related topics Ryuji SHIOYA Shinobu Yoshimura
MS-14 Computational mechanics methodologies and schemes for the structural integrity
analysis and its related topics
MS-15 Multiscale/Multiphysics Simulations on Morphology and Strength of
Microstructure in Solid Materials
Hiroshi Okada Hiroshi Kawai
Kisaragi Yashiro Tomotsugu Shimokawa,Takayuki Kitamura
MS-16 Multiphysics simulations using CFD of complex problem Suvash Chandra Saha Richard Brown
MS-17 Modelling and simulation of the biomechanical characteristics of biological
systems
MS-19 Molecular Dynamics and other atomic modelling methods: techniques and
applications
Kunle Oloyede
YuanTong GU HengAn Wu, Haifei Zhan
MS-20 Modeling and optimization of structures under uncertainty Han Xu Chao Jiang
MS-22 HPC-enabled Computaional Methods – techniques, applications & accelerators Neil Kelson Joe Young, Mark Burry
MS-23 Computational Methods for Smart Materials and Structures Faxin Li Baixiang Xu
MS-24 Multi-scale Modelling and Digital Characterization of Nano composites Richard Yang Yang Xiang
MS-26 General sessions ICCM2012
18

The ICCM2012, Gold Coast, Australia
DETAILED PROGRAM FOR PARALLEL SESSIONS
Date: 26 November 2012 – Acacia Room
MS-01 (1): Computational Methods for Fractional Differential Equations
Chair: Prof Fawang Liu (Queensland University of Technology)
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
14
Keynote
Changpin Li Mixed Spline Function Method for Reaction Anomalous-Diffusion
Equation
316 Hala Hejazi A second-order accurate finite volume method for solving the two-sided
space fractional diffusion equation
1 Qiang Yu Two numerical methods for the space and time fractional Bloch-Torrey
equation with a nonlinear source term in 2D
5 Xuan Zhao A compact scheme for fractional sub-diffusion equation with variable
coefficients
13 Pinghui
Zhuang
Two novel numerical methods of a space-fractional Boussinesq equation
11 Changpin Li Finite element method for nonlinear supperdifusion equation
MS-10: Intelligence Information Processing and Engineering Computation
Chair: Dr Tim Moroney (Queensland University of Technology)
Time ID Author* Title
14:20-
14:40
14:40 -
15:00
15:00-
15:20
15:20-
15:40
127 W. Q. Ding Calculation Method for Ground Settlement Due to Shield Tunnel
Undercrossing Existing Building and Its Application
131 Takeshi
Omori
125 Md Nayim
Kabir
Templated and Object-Oriented Design for Shared Multiphysics Software
Development
Probabilistic Load Flow Analysis of a Distribution Feeder with High
Penetration of Photovoltaic
418 Long Cheng A novel energy-based multiple sources localization in wireless sensor
network
MS-01 (2): Computational Methods for Fractional Differential Equations
Chair: Prof W. Q. Ding (Tongji University, China)
Time ID Author* Title
16:00-
16:20
16:20-
16:40
16:40-
17:00
17:00-
17:20
17:20-
17:40
17:40-
18:00
2
Keynote
3 Qianqian
Yang
17 Jinghua
Chen
Fawang Liu A new finite volume method for solving the two-sided space fractional
diffusion equation with a variable coefficient
A Preconditioned Lanczos Method for Space-Fractional Reaction-
Diffusion Equations on Two-Dimensional Unstructured Meshes
Numerical simulation for the three-dimension fractional sub-diffusion
equation
16 Changpin Li Numerical Fractional-Calculus Model for Two-Phase Flow in Fractured
Media
437 T. Tian Mathematical Modelling of genetic regulatory networks using fractional
differential equations
24 Halit S.
Turkmen
Transient analysis of tapered plates using differential quadrature method
* Corresponding Author or presentation Author
19

Date: 26 November 2012 – Cypress Room
The ICCM2012, Gold Coast, Australia
MS-23 (1): Computational Methods for Smart Materials and Structures
Chair: Prof Faxin Li (Peking University, China)
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
296
Keynote
299 Bai-Xiang
Xu
Bin Liu Study on electroelastic field concentration around the electrode tip in
multilayer ferroelectric actuators of two designs and their optimizations
Numerical Simulation on Piezoelectricity and Hysteresis Curve of Internal
Charge Density in Ferroelectrets
293 Yong Ni Phase field modeling of quasi-static crack propagation coupled
ferroelectric domain switching under electromechanical loading
287 Tian Ran
Lin
The effect of ribbing on the energy flow between two rectangular plates
coupled at right angle
284 Kok J. Computational experiments involving population size for FPGA-based
implementation of a GA solver for the TSP
403 Zongwei Modelling of Perforation Failure of Fibre Metal Laminates Subjected to
Guan Blast
MS-23 (2): Computational Methods for Smart Materials and Structures
Chair: Prof Baixiang Xu (TU Darmstadt, Germany)
Time ID Author* Title
14:20-
14:40
14:40 -
15:00
15:00-
15:20
15:20-
15:40
306
Keynote
292
Keynote
Dong Ruan
Yuanwen
Gao
Dynamic Out-of-plane Compression of Aluminium Honeycombs: Finite
Element Modelling
Nonlinear magnetoelectric effect of a disk-shaped magnetoelectric
laminate structure
295 Faxin Li Simulations of asymmetric deformation in shape memory alloys under
ension/compression using an optimization-based computational model
305 Guozheng
Zhao
Computational studies on 2,4,7,9,11,12-hexanitro-2,4,7,9,11,12- hexaazatetracyclo[8.4.0.03,8.05,6]dodecane
as potential high energy density
compound
MS-11 (1): Computational Microstructural Modelling and Material Design
Chair: Prof Qing Li ( The University of Sydney)
Time ID Author* Title
16:00-
16:20
16:20-
16:40
16:40-
17:00
17:00-
17:20
17:20-
17:40
17:40-
18:00
136
Keynote
Alireza
Asgari
Prediction of mechanical properties of advanced high strength steels by 2D
or 3D microstructural models
134 Che-Cheng
Chang
Level-Set Based Shape Optimisation by Iso-surface Modelling
144 Hossein
Talebi
A Framework for Multiscale Modeling of Cracks
138 Liqun Tang Cell’s irregularity measurements and their effects on material properties of
closed-cell metal foam
145 Yunan
Prawoto
3D Modeling of Austenite based on Real Microstructure
135 Haina Lu Application of Voronoi Tessellations in Modeling Grained Heterogeneity
during Microforming
20

Date: 26 November 2012 – Kauri Room
The ICCM2012, Gold Coast, Australia
MS-19 & 24(1): Molecular Dynamics and other atomic modelling methods: techniques and applications
Chair: Prof Chunhui Yang (University of Western Sydney)/Prof YongGang Zheng (DUT,China)
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
247
Keynote
Luming Shen Atomistic Simulations of Water Behaviors under Confinement of Carbon
Nanotube
259 Jingjie Yeo A molecular dynamics study of defects on the thermal conductivity of
graphene
260 I-Ling Chang The Extraction of CNT Resonance Frequencies from Molecular
Dynamics Simulation
333 Guoxiang
Hou
A sharp interface immersed boundary lattice Boltzmann method with
reduced spurious pressure oscillations for moving boundaries
256 Moon Ki Kim A newly elaborate connection rule in elastic network model for protein
dynamics study
255 Shingo
Okamoto
Mechanical Properties of Double-crystalline Graphites Including a Grain
Boundary and Nitrogen Atoms by Molecular Dynamics Simulations
MS-19 & 24(3): Multi-scale Modelling and Digital Characterization of Nan composites
Chair: Prof Yang Xiang (University of Western Sydney)/Prof Aijun Du (UQ/QUT)
Time ID Author* Title
14:20-
14:40
14:40 -
15:00
15:00-
15:20
15:20-
15:40
309 Chunhui Yang Mechanical behaviour of functionally graded carbon nanofibre/phenolic
Keynote
nanocomposites: numerical modelling and experimental validation
258 Zhoucheng Su Multiscale Simulation of Nanoscale Sliding with Pseudo Amorphous
Cell
310 Yang Xiang Free Vibration of Functionally Graded Carbon Nanotube Reinforced
Composite Beams based on 3rd Order Beam Theory
311 Teck Fei Low Pile-up and Sink-in in Nanoindentation of Stiff Particle Reinforced
Composites
MS-19 & 24 (2): Molecular Dynamics and other atomic modelling methods: techniques and applications
Chair: Prof Chunhui Yang (University of Western Sydney)/ Prof Hengan Wu
Time ID Author* Title
16:00-
16:20
16:20-
16:40
16:40-
17:00
17:00-
17:20
17:20-
17:40
17:40-
18:00
252
Keynote
440
Keynote
YongGang
Zheng
Torsional Behaviors of Fivefold Twinned Nanowires: Molecular
Dynamics Simulations
Hengan Wu Transport of water through graphene nanochannels
254 Akihiko Ito Effect of Crystallite Orientation on Mechanical Properties of
Multicrystalline Graphites by Molecular Dynamics Simulations
249b Lijiang Yang DNA Base Flipping: a Selective Integrated Tempering Sampling Study
249a Xu Xu A quasi conforming point interpolation method (QC-PIM)
257 Zishun Liu Molecular dynamics study on nanobending properties of Cu nanowire
21

Date: 26 November 2012 – Norfolk Room
MS-13 (1): High Performance Computing and related topics
Chair: Prof Masao Ogino (Nagoya University)
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
159
Keynote
Hiroshi
Kawai
165 Ji Hoon
Kang
The ICCM2012, Gold Coast, Australia
A Massively Parallel Structural Analysis Code on Peta-scale
Supercomputer Based on Domain Decomposition Method Using Local
Schur Complement Approach
Hybrid OpenMP+MPI parallelization of an implicit decoupling method for
direct numerical simulation of turbulent boundary layer
434 Ryuji Shioya Large Scale Parallel Analysis of Eigenanalysis Using ADVENTURE
System with CAD System
153 J. Banks Calculation of Volume from Crank Angle Using Reconfigurable Hardware
163 A.M.M.
Mukaddes
319 Mohammad
Adel
Performance of Domain Decomposition Method with Sparse Matrix
Storages Schemes
Architectural Challenges of Service Oriented Architecture (SOA) With
Cloud Computing
MS-02: Development of Novel Computational Methods for Modeling of Materials Interface and Phase Transition
Chair: Prof Hui Tang/Prof S. Kitipornchi
Time ID Author* Title
14:20-
14:40
27
Keynote
Hui Tang Shapes of a single drop rising in stagnant liquids
14:40 - 25 Yiguo ZHU A micromechanical constitutive model of NiTi polycrystal SMA with
15:00
laminated microstructure
15:00- 26 E. L. Chen Boundary element method for axisymmetric heat conduction in bimaterials
15:20
with nonlinear interface conditions
15:20- 28 Lixian Wang Fully nonlinear wave-body interaction with surface-piercing body: a
15:40
desingularized method
MS-13 (2): High Performance Computing and related topics
Chair: Prof Ryuji Shioya (Toyo University)
Time ID Author* Title
16:00-
16:20
16:20-
16:40
16:40-
17:00
17:00-
17:20
17:20-
17:40
17:40-
18:00
162 Shinobu
Yoshimura
435 Kenji
Takizawa
160 Masao
Ogino
Large Scale Parallel Analysis of Acoustic Fluid Structure Interaction,
Using ADVENTURE System
Space–Time Fluid–Structure Interaction Techniques for Long Arterial
Segments
A Scalable and High Performance Implementation of the Domain
Decomposition Method
155 He Chuan A numerical model for natural convective heat transfer from horizontal
rectangular fin arrays in a large space.
161 Hiroshi
Kanayama
158 Shahram
Derakhshan
Houreh
Domain decomposition analysis of thermal convection problems based on
the characteristic curve method
Optimal design of centrifugal pumps impeller
22

Date: 26 November 2012 – Phoenix Room
The ICCM2012, Gold Coast, Australia
MS-14 (1): Computational mechanics methodologies and schemes for the structural integrity analysis
Chair: Prof H. Okada (Tokyo University of Science)
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
179 H. Kawai A Mesh Generation Framework for Fracture Mechanics and Crack
Propagation
181 K. Satoh Comparisons on the performances of the tetrahedral and hexahedral finite
elements in large strain elasto-plastic analysis
185 Zoo-Hwan,
Hah
187 Sung-Kie
Youn
Extending the basis of trimmed surface analysis for stabilized numerical
analysis
Modified trimmed surface analysis in Isogeometric analysis
190 Renhua Feng Methodology Comparison for Engine Radiated Noise Analysis
169 J Petrolito Vibration of orthotropic plates using hybrid-Trefftz elements
MS-14 (2): Computational mechanics methodologies and schemes for the structural integrity analysis
Chair: Prof H. Kawai (Tokyo University of Science, Suwa)
Time ID Author* Title
14:20-
14:40
14:40 -
15:00
15:00-
15:20
15:20-
15:40
180 H. Okada Analysis of Multiple Crack Propagation and their Coalescence using the
Automatic Meshing Technique for Quadratic Tetrahedral Finite
182 Toyoyasu
Nishikawa
On Crack Propagation Analysis under a Residual Stress Field(Mappings of
Inherent Strains and Residual Stresses)
188 C. Hwu A Special Boundary Element for Interface Corners in Viscoelastic
Materials
183 Yasunori
Yusa
Partitioned Iterative Coupling Algorithm for Large-scale Mixed-mode
Computational Fracture Mechanics
MS-14 (3): Computational mechanics methodologies and schemes for the structural integrity analysis
Chair: Prof H. Okada (Tokyo University of Science)
Time ID Author* Title
16:00-
16:20
166 J Petrolito A family of mixed elements for nonlinear frame analysis
16:20-
16:40
16:40-
17:00
17:00-
17:20
17:20-
17:40
17:40-
18:00
170 Guoqin Shi Numerical simulations of the residual stress/strain profile induced by cold
expansion process in multi-hole plates
171 X. Y.
Zhuang
A shell-joint model for analyzing lining structure of shield-driven tunnel
174 Xiongyao
Xie
371 Noor Akma
Ibrahim
An Innovative Theoretical Model on Analysis of the Coupling Effect of a
Track-Tunnel-Soil System
Parametric test for partly interval-censored failure time data under Weibull
distribution
23

Date: 26 November 2012 – Waratah Room
The ICCM2012, Gold Coast, Australia
MS-4 (1): Recent Advances in Meshfree/Particle Methods and Related Technologies
Chair: Prof Seiya Hagihara (Saga University)
Time ID Author* Title
10:30-
10:50
44 S. Koshizuka Moving Particle Simulation for Tsunami with Floating Objects
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
43 Keisuke
Fujimoto
Large scale Tsunami Simulation by the Incompressible SPH and its
efficiency of hybrid parallel computation
39 Qiang Xu Solving multi-domain 2D heat conduction problems by the least squares
collocation method with RBF interpolation on virtual boundary
34 Y.Wang Topology Optimization using a Radial Point-Based Interpolation Method
35 Mohd Izzat Coupled SPH/FEA Analysis in Portable Water Filled Barriers
409 XueFeng
Zhu
Nonconforming Isogeometric Analysis using Mortar method
MS-4 (2): Recent Advances in Meshfree/Particle Methods and Related Technologies
Chair: Prof Seiichi Koshizuka (University of Tokyo)
Time ID Author* Title
14:20-
14:40
14:40 -
15:00
15:00-
15:20
15:20-
15:40
47 S. Hagihara Stress intensity factors calculation using adaptive meshfree method with
adding and moving nodes
42 Yuichi
Tadano
Large deformation elasto-visco-plastic analysis using particle-based
method
38 De’an Hu Analysis of Explosion in Concrete by Axisymmetric FE-SPH Adaptive
Coupling Method
314 D. Wu Uncertain Limit Analysis with Interval Parameters by Kinematic
Approach
MS-06 (1): Recent Development on Optimisation and Control of Mechanical and Structural Systems
Chair: Prof Huaxia Deng and Prof Haiping Du
Time ID Author* Title
16:00-
16:20
16:20-
16:40
16:40-
17:00
17:00-
17:20
17:20-
17:40
17:40-
18:00
59
Keynote
Wei Gao An Improved Particle Swarm Optimization Algorithm with Nonlinearly
Decreasing Inertia Weight
71 Huaxia Deng The influence of MR dampers on the critical speeds of high-speed trains
74 Zhiqiang Wu An Approach to Shape Optimization in Impact Problems using Modal
Analysis
62 Gangrou.
Peng
Modeling and Parameter Identification of a Magnetorheological (MR)
Damper with a Force-Lag Phenomenon
64 Tin Nguyen Tunnel Reinforcement Optimization for Nonlinear Material
63 J.C. JI Non-resonant Response of a Quadratically Nonlinear Oscillator under
Two-to-One Resonant Hopf Bifurcations
24

Date: 27 November 2012 – Acacia Room
The ICCM2012, Gold Coast, Australia
MS-15 (1): Multiscale/Multiphysics Simulations on Morphology and Strength of Microstructure in Solid Materials
Chair: Prof Kisaragi Yashiro (Kobe University, JAPAN)
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
199
Keynote
Takahiro
Shimada
196 T.
Shimokawa
201 Keisuke
Kinoshita
195 Akihiro
Nakatani
First-Principles DFT+U Calculations of Multiferroicity in BiFeO3
Atomic Simulations of Mechanical Properties of Multilayered Composites
with Brittle and Ductile Phases
Role of Grain Boundaries as Dislocation Source in Grain-Size
Strengthening of Ultrafine Grained metals
Analysis of Kink-Fold Deformation in Single Slip Model Based on
Higher-Order Lattice Defect Theory
200 K Yashiro MC, MD and NEB Calculations for Y2O3 and TiO2 Oxides in ODS Steels
202 Z. Qian Multiscale lattice fracture model for cement-based materials
MS-15 (2): Multiscale/Multiphysics Simulations on Morphology and Strength of Microstructure in Solid Materials
Chair: Prof Tomotsugu Shimokawa (Kanazawa University, JAPAN)
Time ID Author* Title
14:20-
14:40
14:40 -
15:00
15:00-
15:20
15:20-
15:40
197
Keynote
Makoto
Uchida
198 Yuji
Nakasone
Computational Simulation of Polymer RVE Model under Boundary
Condition with Macroscopic Strain Gradient
FEM Analyses of Creep in a Welded Modified 9Cr Steel Considering Its
Near-Weld Microstructures
192 Jingkai Wu A multiscale computational method for elasto-plastic and strain
localization analyses of heterogeneous materials
194 Bittnar, Z. Validation of Multiscale Model for Heat Generation in Hardening
Concrete
MS-05: Fracture modelling of composite materials
Chair: Prof M. L. L. Wijerathne / Prof Zhongwei Guan(UK)
Time ID Author* Title
16:00-
16:20
16:20-
16:40
16:40-
17:00
17:00-
17:20
17:20-
17:40
17:40-
18:00
53
Keynote
404
Keynote
M. L. L.
Wijerathne
Zhongwei
Guan
49a ZhiPeng
Zhong
Simulation of 3D Wing Crack Growth with PDS-FEM
Modelling of Perforation Failure of Lightweight Composite Structures
Subjected to Low Velocity Impact
A point-by-point Lagrange multiplier method for modeling interface crack
face contact and friction
54 Kun Zhou Modeling the Elastic Field of Multiple Inhomogeneities and Cracks
56 Vinod
Nagpal
52 Akane
Watanabe
Foreign Object Damage Prediction in Ceramic Matrix Composites
Coupling Simulation between Chemical Diffusion and Nonlinear Damage
Mechanics in Mesoscopic Concrete
25

Date: 27 November 2012 – Cypress Room
The ICCM2012, Gold Coast, Australia
MS-11 (2): Computational Microstructural Modelling and Material Design
Chair: Prof A. Asgari (Deakin University, Australia)
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
140 Zhihai Xiang Design Camouflage Devices Based on Conformal Transformation
Keynote
Acoustics
429 Sen Lin The design of negative electric permittivity with level set method
137 Yijiang Peng Application of Base Force Element Method on Meso-mechanics Analysis
for Recycled Aggregate Concrete
133 Ling Li A crystal plasticity representative volume element model for simulating
nanoindentation of aluminium alloy 2024
141 Qiang Liu Experimental and numerical investigation on crashworthiness of double at
shaped CFRP tubes
264 Fang Yi Li Topology optimization of structures with uncertain-but-bounded
constraints using an anti-optimization approach
MS-16 (1): Multiphysics simulations using CFD of complex problem
Chair: Prof Richard Brown
Time ID Author* Title
14:20-
14:40
14:40 -
15:00
15:00-
15:20
15:20-
15:40
374 Shuai Guo Multi-Objective optimization of a mini-centrifugal compressor impeller
using CFD analysis and design of experiments method
423 Wenbo Ma Using advanced traits of passengers to facilitate route-choice decisionmaking
432 I. Hassan The Mechanism of Counter-Rotating Vortex Pair Forming in Film-
Cooling Flow and the Nature of Liftoff and Reattachment -- a Numerical
Investigation
211 Chenlei
Wang
CFD simulation and analysis of heat transfer in hot stamping process
MS-16 (2): Multiphysics simulations using CFD of complex problem
Chair: Prof Feng Xu
Time ID Author* Title
16:00-
16:20
16:20-
16:40
16:40-
17:00
17:00-
17:20
17:20-
17:40
17:40-
18:00
335
Keynote
Qian
Zhansen
324 Yingying
YU
A uniform Roe scheme for hypersonic and very low Mach number flows
Effects of mesh resolution for hydrodynamic and transport modelling in
coastal area
318 Miao Li Application of the Scaled Boundary Finite Element Method to Short-
Crested Wave Interaction with Pile Group Foundations
223 N.Kashanin
Jad
Analytical and Numerical Investigations of the Effects of Microchannel
Aspect Ratio on Velocity Profile and Friction Factor
217 Atta Sojoudi Finite volume approach of natural convection in triangular enclosures with
localized heating below
209 Suvash C.
Saha
Tansient Free Convection Heat Transfer Through Conducting Partitioned
Placed in an Isosceles Triangular Enclosure
26

Date: 27 November 2012 – Kauri Room
MS-09 (1): Computer Simulation using Particle Methods
Chair: Prof Bin Chen/ Prof Mengyan Zang
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
112
Keynote
Dongdong
Wang
40 Guangtao
Duan
108 Sam
Raymond
109 Mengyan
Zang
107 Timothy
Fagan
124 Chien-Ting
Sun
The ICCM2012, Gold Coast, Australia
A Regularized Meshfree Formulation for Rainfall Infiltration Triggered
Slope Failure Analysis
Speed up the Moving Particle Semi-implicit Method by hybrid
OpenMP/MPI Parallelization
SPH Analysis of Brittle Fracture in 4340 Steel impacted at room and low
Temperatures
A Fracture Model for 3D Spherical Discrete Element Method
Friction Stir Processing with Meshless Numerical Technique
Reproducing Kernel Particle Method for Ship Collision and Explosion
MS-23 (3): Computational Methods for Smart Materials and Structures
Chair: Prof Bin Liu (Tsinghua University, China)
Time ID Author* Title
14:20-
14:40
14:40 -
15:00
15:00-
15:20
15:20-
15:40
303
Keynote
Yasuhide
Shindo
Cryogenic Electromechanical Response of Multilayer PbZr1-XTiXO3
Actuators under DC and AC Electric Fields in Hydrogen Fuel Injection
Systems
304 Cheol Kim Topological optimization algorithm of piezo-composites materials on the
catilevered energy harvester
300 Yi-Nan Zuo Phase Field Simulation of Polarization Switching of Aged Ferroelectric
Single Crystal
298 Manuel
Feuchter
A method to determine the anisotropic thermal conduction of nanoscale
thermoelectric materials by the use of multiphysical simulations and neural
networks
MS-09 (2): Computer Simulation using Particle Methods
Chair: Prof Dongdong Wang/ Prof Moubin Liu
Time ID Author* Title
16:00-
16:20
16:20-
16:40
16:40-
17:00
17:00-
17:20
17:20-
17:40
17:40-
18:00
118
Keynote
117 LÜ
Xiangfeng
119 LÜ
Xiangfeng
122 LÜ
Xiangfeng
Bin Chen Moving Particle Semi-implicit Method Based on Large Eddy Simulation
Investigations on Fluid-solid Coupling Model of Tailings Dam with
Suspended Particles Infiltration
Numerical Investigations on Coupling Effects of Rupture-seepage of Coal
Rock Slope
Stability Analysis of Water-filled Dump Slope with Seepage and Damage
Coupling Effects
110 Ming Yan A New Hypersonic Boundary Layer Transition Correlation
116 Li Shan Dosage Individualization of Cyclosporine A in Patients after Kidney
Transplantation—Comparison of Neural Network and Support Vector
Machines
27

Date: 27 November 2012 – Norfolk Room
The ICCM2012, Gold Coast, Australia
MS-20 (1): Modelling and optimization of structures under uncertainty
Chair: Prof Wei Gao (University of New South Wales)/Prof Chao Jiang(Hunan University)
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
276
Keynote
X. Han Static and dynamic response analysis for uncertain structures based on
evidence theory
262 C.
Vivekananthan
Optimum sizing of Battery Energy Storage System in a Distribution Sector
for Voltage Improvement
266 Zhe Zhang A new reliability analysis method based on evidence theory
383 Min Tang Estimation of Vehicle Excitation Loading from Dynamic Response by
Inverse Simulation
282 YungChung
Chen
261 Rupika P.
Bandara
Structural optimizing of fiber-reinforced composite dentures using stressinduced
material transformation
Localization and Severity Estimation of Damaged Structural Connections
Using Frequency Response Functions and Artificial Neural Networks
MS-17 (2): Modelling and simulation of the biomechanical characteristics of biological systems
Chair: Prof Kunle Oloyede
Time ID Author* Title
14:20-
14:40
14:40 -
15:00
15:00-
15:20
15:20-
15:40
427
Keynote
Lihai Zhang Computational modeling of mechanical behaviour and bone fracture
healing using the Theory of Porous Media
233 Q. Liu Modelling Fungal Network in Unbalanced Carbon and Nitrogen Condition
234 Trung Dung
Nguyen
439 P.G. Hasitha
Nayanajith
Porohyperelastic Analysis to Explore Mechanical Properties of
Chondrocytes Using Numerical Modeling and Experiments
Numerical Simulation of Red Blood Cells’ Deformation using SPH
Method
MS-20 (2): Modelling and optimization of structures under uncertainty
Chair: Prof Xu Han (Hunan University)/ Prof Yoshio Suzuki (Japan Atomic Energy Agency)
Time ID Author* Title
16:00-
16:20
16:20-
16:40
16:40-
17:00
17:00-
17:20
17:20-
17:40
17:40-
18:00
267
Keynote
Chao Jiang A non-probabilistic reliability analysis technique based on
multidimensional parallelepiped convex model
263 Chen Wang Stochastic Interval Dynamic Analysis of Structures with Mixed
Uncertainties
268 Guiping Liu An Efficient Dynamic Micro Multi-objective Genetic Algorithm and its
Applications
280 Yoshio
Suzuki
281 Guo Zhan
Lum
R&D of a Zooming Analysis to Verify a Seismic Simulation of an Entire
Nuclear Plant
Topological Optimization for Continuum Compliant Mechanisms via
Morphological Evolution of Conventional Mechanisms
279 Rengui Bi Application of non-probabilistic convex model to predict the uncertain
buckling and reliability of an axially compressed functionally graded
cylindrical shell
28

Date: 27 November 2012 – Phoenix Room
The ICCM2012, Gold Coast, Australia
MS-7 (1): Recent developments of Generalized/Extended Finite Element Methods
Chair: Prof Hitoshi Matsubara
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
76
Keynote
J. Ambrósio Identification of Reliable Vehicle Multibody Models for Structural Impact
Using Optimization Methods
79 Yijiang Peng 2D-Model of Base Force Element Method on Complementary Energy
Principle for Arbitrary Meshes
80 Yingbin
Chai
81 Zhennan
Zhang
088 Petr
Prochazka
363 Yuta
Kitamura
Analysis of Coupled Structural-Acoustic Problems Based on the Smoothed
Finite Element Method (S-FEM)
Element partition method for interface debonding simulation
Refined analysis of FRC in tunnel linings exposed to high temperature
Birefringence Simulations of Calcium Fluoride Single Crystal Window
with Consideration of Intrinsic Birefringence
MS-7 (2): Recent developments of Generalized/Extended Finite Element Methods
Chair: Prof Hitoshi Matsubara/ Prof J. Ambrósio
Time ID Author* Title
14:20-
14:40
14:40 -
15:00
15:00-
15:20
15:20-
15:40
90
Keynote
Hitoshi
Matsubara
Crack propagation model for Discrete Fracture Network based on GFEM
and MLSM
89 Toshio
Nagashima
Crack analysis by XFEM using tip elements
85 Yijiang Peng Research and Application Advances in Base Force Element Method
77 Yong-Lin Pi An accurate curved beam element for 3D nonlinear large deformation
analysis
MS-17 (1): Modelling and simulation of the biomechanical characteristics of biological systems
Chair: Prof Lihai Zhang
Time ID Author* Title
16:00-
16:20
16:20-
16:40
16:40-
17:00
17:00-
17:20
17:20-
17:40
17:40-
18:00
227
Keynote
Guiyong
Zhang
228 Marcel M.
Rossi
230 Matthew
Adams
A three-dimensional nonlinear explicit dynamic meshfree algorithm for
simulation of soft tissue mechanical responses
A Novel Approach to Calculate Body Segments Inertial Parameters from
DXA and 3D Scanners Data
Solution methods for advection-diffusion-reaction equations on growing
domains and subdomains, with application to modelling skin substitutes
241 Xian Chen Simulation of Electrochemical and Mechanical Changes in Articular
Cartilage Layers under Sliding Contact
244 R. Maniyeri Numerical Simulation of Hydrodynamic Interaction between Swimming
Flagella in a Viscous Fluid Using an Immersed Boundary Method
240 Yang Liu Large Eddy Simulation of Flow with Obstructive Sleep Apnea at Pre- and
Post-Surgical Treatment
29

Date: 27 November 2012 – Waratah Room
The ICCM2012, Gold Coast, Australia
MS-06 (2): Recent Development (or Advanced Topics) on Optimisation and Control of Mechanical and
Structural Systems
Chair: Dr Zhen Luo / Dr Jinchen Ji
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
65
Keynote
Xiaodong
Huang
Two-scale Concurrent Topology Optimization for Microstructures of
Materials and Structures
57 Zhen Luo A Chebyshev meta-model for interval uncertain optimization of
suspensions
58 Pipit
Nugroho
75 Seok Heum
Baek
A New Adaptive Fuzzy-Hybrid Control Strategy of Semi-Active
Suspension with Magneto-Rheological Damper
Design Optimization of the Electromechanical Actuator for Automatic
Transmission Using Multiple Surrogate Models
61 Zhen Luo Interval analysis method for dynamics systems with uncertain parameters
68 Moucun
Yang
Euro-trough Solar Concentrator optimization design based on variable
cross section beam
MS-08 (2): High-order numerical methods for solving PDEs
Chair: Prof T. Tran-Cong
Time ID Author* Title
14:20-
14:40
14:40 -
15:00
15:00-
15:20
15:20-
15:40
100 Cheng-Yu
Ku
101 Yun-Che
Wang
102 Arpiruk
Hokpunna
A Perturbed Scalar Homotopy Method for Solving Groundwater Problems
with Singular Initial Conditions
Velocity-stress formulation of 2D linear elastic and viscoelastic systems
for resonant ultrasound spectroscopy
SIP-Multigrid method in Fourth-Order Finite Volume Method for Navier-
Stokes Equations
104 Wei Li Discrete Singular Convolution for Dynamic Response of Free Vibrations
of a Rotating Shaft
MS-08 (1): High-order numerical methods for solving PDEs
Chair: Prof T. Tran-Cong/ Dr Terry Lin
Time ID Author* Title
16:00-
16:20
16:20-
16:40
16:40-
17:00
17:00-
17:20
17:20-
17:40
17:40-
18:00
105
Keynote
T. Tran-
Cong
92 N. Thai-
Quang
93 T-Tram
Hoang-Trieu
A New IRBFN Scheme for the Numerical Simulation of Interfacial Flows
A high-order compact integrated-RBF scheme for time-dependent
problems
Compact local Integrated RBF stencil based on Finite Volume formulation
for second-order differential problems
94 N. Pham-Sy Development of Parallel algorithm for Boundary Value Problems using
Compact Local Integrated RBFN and Domain Decomposition
95 Raj Nawin Numerical study of nonlinear wave processes by means of discrete chain
models
372 Fudziah
Ismail
Solving Special Second Order Delay Differential Equations Using Hybrid
and Runge-Kutta Nystrom Methods
30

Date: 28 November 2012 – Acacia Room
MS-26 (1): General Sessions
Chair: Prof Cheng Wang (Beijing Institute of Technology)
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
326
Keynote
321 A.
Bassandeh
317 Jaime
Cabanes
The ICCM2012, Gold Coast, Australia
Jie Yang Static bending analysis of a micro-ring using modified coupled stress
theory
Identifying load paths from finite element analysis with application
to reinforcement of membrane structures
Accuracy of FEM and BEM for electromagnetic flux calculations in high
power applications
328 Yi Qian The Energy Loss and Flow Reduction of Intracranial Aneurysms after the
Flow Diverter Was Implanted
330 Zuduo
Zheng
Use and abuse of structural equation modeling in travel behaviour research
336 Shaoqiang
Tang
Accurate Boundary Conditions for One-Dimension Atomic Chain
Time ID Author*
MS-26 (3): General Sessions
Chair: Dr. GuiYong Zhang (UWA)
Title
13:30-
13:50
13:50-
14:10
14:10-
14:30
14:30-
14:50
14:50-
15:10
365 Hiroshi
Tamura
Effect of Weld Bead Shape on Critical Weibull Stress for Initiation of
Brittle Fracture during Earthquakes
366 Xia Zhu Investigation of Deformation Behavior of Shaft's Cross Section Partially
Enlarged and Controlled by Cyclic Bending and Axial Compressive
Loading through Metal Mold
367 Takahiro
Saitoh
Large-scale transient poroelastodynamic analysis using convolution
quadrature time-domain boundary element method
22 Aziz Azimi The Investigation of Non-Fourier Heat Conduction in a Porous Medium
Using Fractional Sub-diffusion Model: Local Thermal Equilibrium
Condition
360 Aziz Azimi Design of a Combined Cooling-Heating and Power System for a Five-
Storey Residential Building in the Mild Climates of Iran
31

Date: 28 November 2012 – Cypress Room
MS-16 (3): Multiphysics simulations using CFD of complex problem
Chair: Dr. Suvash C. Saha
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
206
Keynote
208 Meisam
Babaie
406 E.l Hadi
Khali
The ICCM2012, Gold Coast, Australia
Guowei Ma Topology analysis method for water flow in 2D dual media
Residence Time Investigation in a Co-axial Dielectric Barrier Discharge
Reactor
Numerical Simulation of a Rectangular Turbulent Jet in Crossflow using
RANS-based Modelling
431 Shang Qing The CFD Study about The Flow Structure and Transition Phenomena of a
Delta-Wing Flat Plate in Hypersonic Flow
205 X. J. Gao Coupled Modelling of Fluid Flow, Heat Transfer and Solidification in
Bimetal Casting Process
204 Majedul
Islam
3D simulation technique of a parabolic trough concentrator collector using
ANSYS FLUENT
Time ID Author*
MS-26 (8): General Sessions
Chair: Prof Xu Xu (Jilin University, China)
Title
13:30-
13:50
13:50-
14:10
14:10-
14:30
14:30-
14:50
14:50-
15:10
417
Keynote
Cheng Wang High Resolution Numerical Simulation of Shock-to-detonation Transition
of Condensed-phase Explosives
334 Jijun YI Topology optimization for continua considering global displacement
constraint
271 Fengxiang
Xu
207 Chandan
Kumar
Crashworthiness design of car body components with tailored welded
blank structures
Modeling Heat and Mass Transfer Process during Drying of Fruit
325 Rory Gover Numerical modeling and validation of composite road safety barrier
impacts
32

Date: 28 November 2012 – Kauri Room
MS-12: Buoyant-driven Flows
Chair: Prof Wenxian Lin (James Cook University)
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
426
Keynote
385
Keynote
151 Shintaro
Takeuchi
The ICCM2012, Gold Coast, Australia
Feng Xu Numerical and experimental studies of unsteady coupled thermal boundary
layers in a differentially heated partitioned cavity
Xiao-Wei A BEM approach for convective heat transfer problems
Gao
Behaviours of dispersed particles and heat transfer in buoyant-driven twophase
flows with different solid-liquid heat conductivities
149 Wenxian Lin Direct numerical simulation of interaction of twin transitional fountains in
a homogeneous fluid
430 Xing Feng Numerical simulation of interaction between wave and current with VOF
422 Atta Sojoud Large eddy simulation of smoke flow in a real road tunnel fire using FDS
MS-26 (5): General Sessions
Chair: Prof Yuanwen Gao (Lanzhou University, China)
Time ID Author* Title
13:30- 395 Y. Li Mechanical Response of Superconducting Cable: the Theoretical and
13:50
Numerical Approaches Modeling for the Hierarchical Twisted Structure
13:50-
14:10
14:10-
14:30
14:30-
14:50
14:50-
15:10
389 Aditi Roy Numerical simulation of the in plane and out of plane acoustic emission
source in thin plate
394 Yi LI Dynamic analysis of fire-induced progressive collapse of an 8-story
building
388 Xin Li Numerical Simulation of Local Vibration Responses of Highway Cable-
Stayed Bridge Due to Moving Vehicle Loads
361 A. A.
Heshmati R.
Simulation of Shear Strength of Soils Using a Hybrid MEP and PSO
Method
33

Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
Keynote Yi-Min
(Mike) Xie
346 Xiaodong Jia
Date: 28 November 2012 – Norfolk Room
MS-26 (2): General Sessions
Chair: Prof Dong Ruan(Swinburne University of Technology)
The ICCM2012, Gold Coast, Australia
The relationship between optimal periodic structures and optimal
material microstructures
Impact of Interface Scattering on the thermoelectric properties of
Polycrystalline Thermoelectric materials
342 Zhang Ling Effects of Interaction among Indicators on Independence from Irrelevant
Alternatives
338 Haiqing Yang Analysis on the Onset Condition of Dynamic Damage Localization in
Crack- Weakened Rock Mass
350 Z. Cai Nonlinear Dynamics and simulation of Rotating Triangle-like Tethered
Satellite Formation near Libration Points
356 Daniel Kupke Managing the complexity of Global Production networks by using
mathematical optimization and interactive computing methods
Time ID Author*
MS-26 (4): General Sessions
Chair: Dr. Jie Yang (RMIT)
Title
13:30-
13:50
13:50-
14:10
14:10-
14:30
14:30-
14:50
14:50-
15:10
323 Guowei Ma Cover refinement of the numerical manifold method with application in
crack propagation
379 I Y Chan A Novel Residual Norm Based Algorithm Using Optimal Weights for
Solving Nonlinear Algebraic Equations
378 E W C Lim Surrogate Models Based on Discrete Fourier Series
373 Hendra Teja
Wirawan
390 Javad
Malekani
A branch and bound and meta-heuristic algorithm for single machine
sequence-dependent setup scheduling problem with maintenance
consideration to minimize make-span
Study on biomechanical parameters of twisting the orthopaedic Bone
Plates during surgery
34

Date: 28 November 2012 – Phoenix Room
The ICCM2012, Gold Coast, Australia
MS-22: HPC-enabled Computational Methods – techniques, applications & accelerators
Chair: Dr Neil Kelson (Queensland University of Technology)
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
29 David James
Warne
Solving Tri-Diagonal Linear Systems using Field Programmable Gate
Arrays
31 San-Yih Lin A GPU-Version Lattice Boltzmann Method for Simulating Fluidization
of Large Number of Spherical Particles
314 Wu D. Uncertain Limit Analysis with Interval Parameters by Kinematic
Approach
420 Warisa
Yomsatieankul
Meshfree Radial Basis Function and Finite Difference Method for
Groundwater Modeling
248 HaiFei Zhan Influence of Grain Boundaries on the Vibrational Properties of Silver
Nanowires
106 H.C.P.
Karunasena
A Particle Based Micromechanics Model to Simulate Drying Behaviors
of Vegetable Cells
MS-26(6): General Sessions
Chair: Prof XiaoWei GAO (Dalian University of Technology, China)
Time ID Author* Title
13:30-
13:50
13:50-
14:10
14:10-
14:30
14:30-
14:50
14:50-
15:10
73
Keynote
Zhan Kang Topological optimization of damping layers for minimizing acoustic
radiation
400 Li-rong Jian Variable Precision Rough-fuzzy Set Approach to Rough-fuzzy Decision
Tables
436 M. A. Bokhari Smoothing Noisy Data by Average EWMA and LS-Approximation
399 Jian-Wei
Zhou
Spectral norms of circulant matrices with modified Fibonacci and Lucas
numbers entries
398 H. T. Zhu Responses of nonlinear oscillators under external and parametric white
noises
35

Date: 28 November 2012 –Waratah Room
The ICCM2012, Gold Coast, Australia
MS-17 (3): Modelling and simulation of the biomechanical characteristics of biological systems
Chair: Prof Kunle Oloyede (QUT)
Time ID Author* Title
10:30-
10:50
10:50-
11:10
11:10-
11:30
11:30-
11:50
11:50-
12:10
12:10-
12:30
322 J. Banks Measurement of Structural Changes to a Food Material during
Dehydration
327 Madawa
Priyadarshana
, W.J.R.
The Cross-Entropy Method and Multiple Change Points Detection in Zero-
Inflated DNA Count Data
229 Tong Li Computational mechanics model for the microfilament networks with
different architectures based on the molecular investigation of single actin
filaments
232 Thibbotuwawa
N.
Finite Element Shoulder Models, A Review
237 Zheng Bo
Lai
Cohesive Zone Modelling of Mineralized Collagen Fibril Arrays in
Bending
231 Huan Yuan Morphology-based Model for Predicating Osteocyte-Like Cell Line
(MLO-Y4) Growth Process
Time ID Author*
MS-26 (7): General Sessions
Chair: Dr. Suvash Saha
Title
13:30-
13:50
13:50-
14:10
14:10-
14:30
14:30-
14:50
14:50-
15:10
368 Takayuki
Tamaogi
369 Akira
Furukawa
Numerical Analysis on Viscoelastic Split Hopkinson Bar Method
Two-Dimensional Elastic Wave Scattering Analysis by a Crack for
General Anisotropy Using Convolution Quadrature Boundary Element
Method
386 Zhiqin Cai Nonlinear Control of Rotating Multi-tethered Formations in Halo orbits
438 Hua-Shu Liu Common Condition Monitoring and Life Predication Techniques for Oilfilled
Transformer: A Review
236 P.G.H.
Nayanajith
Simulation of Red Blood Cell Motion using Particle Methods, A Review
* Corresponding Author* or presentation Author*
36