The Second Workshop on Recent Progress of the Scaled Boundary Finite Element Method (SBFEM2018)
Faculty of Infrastructure Engineering, Dalian University of Technology, Dalian, China
Nov. 3-5, 2018
INTRODUCTION
Objectives
The scaled boundary finite element method (SBFEM) has been developed into a general purpose numerical method since it was first proposed by Song and Wolf in 1996 for the solution of wave propagation problems. This method is semi-analytical and only the boundaries of the subdomains are discretized. Its advantages were firstly recognized for the modelling of problems involving unbounded media and singularities. Recently, a methodology for constructing arbitrary polygon/polyhedron elements for linear and nonlinear analyses was established based on the SBFEM. This development theoretically renders the range of application of the SBFEM as wide as that of the displacement-based finite element method. Today, the application of the SBFEM has been expanded to many other important fields in engineering, such as fluid mechanics, dam-reservoir-foundation interaction, electromagnetics, ultrasonic guided waves problem,fracture problem, acoustics, seepage, electrostatics, linear and nonlinear geotechnical problems, sensitivity analysis and heat transfer, etc. However, great potential of the SBFEM in modelling 3D microstructures of concrete or composite materials, crack propagation, dynamic contact for cracks analysis, shell problems, dam-reservoir-foundation interaction, interaction of complex soil and pile foundation,large scale computing problem, fastmesh generation problem, moving boundary problems, etc. remains to be explored.
In order to summarize new developments, advances and applications of the scaled boundary finite element method and provide a floor for the mutual exchange of ideas on the SBFEM for the interested research all over the world, The First Workshop on Recent Progress of the Scaled Boundary Finite Element Method (SBFEM2017) has been successfully held in Hohai University, Nanjing on Nov. 5-7, 2017, the second workshop (SBFEM2018) continuing the previous and successful workshop will be held in Dalian University of Technology on Nov. 3-5, 2018.
Conference Topics
Over the years, research has refined the initial version of the method and one can identify the following salient topics under particularly intensive study:
● Solid and fracture mechanics
● Infinite domain problems
● Fluid-structure interaction
● Dam-reservoir-foundation interaction
● Heat transfer
● Shell structure analysis
● Combined experimental and numerical SBFEM methodologies
● Computer implementation aspects.
Short Course
Fundamental and MATLAB Implementation of the Scaled Boundary Finite Element Method, presented by Prof. Chongmin Song, University of New South Wales, Australia.
COMMITEES
Conference Chairmen
● Prof. Gao Lin (Chairman),DalianUniversity of Technology, China
● Prof. Chongmin Song (Co-chairman), University of New South Wales, Australia
Scientific Committee
● Prof. Chongmin Song,University of New South Wales, Australia.
● Prof. Gao Lin,DalianUniversity of Technology, China.
● Prof. Haitian Yang,DalianUniversity of Technology, China.
● Prof. Degao Zou,DalianUniversity of Technology, China.
● Prof. Carolin Birk,Universität Duisburg-Essen, Germany.
● Prof. Chengbin Du,Hohai University, China.
● Prof. Zhenjun Yang,Zhejiang University, China.
● Prof. Shenshen Chen,East China Jiaotong University, China.
● Dr. Ean Tat Ooi,Federation University, Australia.
Organizing Committee
● Dr. Jianbo Li,DalianUniversity of Technology, China.
● Dr. Zhiqiang Hu,DalianUniversity of Technology, China.
● Dr. Jun Liu,DalianUniversity of Technology, China.
● Dr. Hong Zhong,China Institute of Water Resources and Hydropower Research, China.
● Dr Sundararajan Natarajan,Indian Institute of Technology-Madras,India
● Dr. Liguo Sun,Hohai University, China.
● Dr. Shouyan Jiang,Hohai University, China.
● Dr. Denghong Chen,China Three Gorges University, China.
● Dr. Yiqian He,DalianUniversity of Technology, China.
● Dr. Junyu Liu,ShenyangUniversity of Technology, China.
● Dr. Zihua Zhang,Ningbo University, China.
● Dr. Yichao Gao,Huaqiao University, China.
● Dr. Peng Zhang,Hohai University, China.
● Dr. Zejun Han,SouthChina University of Technology, China.
● Dr. Lin Pang,Chia Railway Eryuan Engineering Group Co. LTD, China.
Conference Secretariat
● Dr. Jun Liu
● Faculty of Infrastructure Engineering, Dalian University of Technology, Dalian, China
● E-mail: liujun8128@
● Tel: +86-411-84709552
● Mobile: +86-13610921908
DATES AND FEES
Dates
Deadline for submitting abstract Notification of acceptance of abstracts Conference SBFEM course for students and young teachers |
September 30, 2018 October 15, 2018 November 3-4, 2018 November 5, 2018 |
Fees
Regular Fee: 800 RMB
Student Fee: 400 RMB
Registration fees will include:Program, morning and afternoon coffee breaks, lunch, supper.
Conference Venue
DalianUniversityof Technology
No.2 Linggong Road, Ganjingzi District, Dalian City, Liaoning Province, P.R.China,
116024
SHORT COURSE
Date & Time:November 5, 2018, 9:00~12:00, 14:30~17:30
Speaker:Prof. Chongmin Song (University of New South Wales)
This short course will present the fundamental theory and MATLAB implementation of the scaled boundary finite element method (SBFEM) in the context of a generally applicable numerical method. The contents of this course are selected from Song (2018) “The Scaled Boundary Finite Element Method: Introduction to Theory and Implementation” Wiley, and include:
1. Basic formulations of the scaled boundary finite element method in two dimensions: scaled boundary coordinates and transformation, derivation of the scaled boundary finite element equation by virtual work principle, and element coefficient matrices
2. Solution of the scaled boundary finite element equation by eigenvalue decomposition: element stiffness, strain and stress field, and mass matrix.
3. Platypus – a MATLAB program for 2D linear static and dynamic analysis using the scaled boundary finite element method
4. Automatic polygon mesh generation.
5. Modelling considerations in the scaled boundary finite element method.
To fully benefit from the course, it is advisable to bring your own laptop with MATLAB installed.