Table Of ContentS. Kobayashi · N. Nishimura E ditors
Boundary
Element Methods
Fundamentals and Applications
s.
Kobayashi . N. Nishimura (Eds.)
Boundary Element
Methods
Fundamentals and Applications
Proceedings of the IABEM Symposium
Kyoto, Japan, October 14-17, 1991
Springer-Verlag
Berlin Heidelberg GmbH
S. Kobayashi
N. Nishimura
Division of Global Environment Engineering
Kyoto University
Kyoto, 606-01
Japan
ISBN 978-3-662-06155-8
Library of Congress-in-Publication Data
IABEM (Organisation). Symposium (1991: Kyoto. Japan)
Boundary clement methods: fundamentals and applications: proceedings of the IABEM
Symposiom, Kyoto, Japan, October 14-17.19911 S. Kobayashi and N. Nishimura, cds.
ISBN 978-3-662-06155-8 ISBN 978-3-662-06153-4 (eBook)
DOI 10.1007/978-3-662-06153-4
1. Boundary element methods --Congresses
I. Kobayashi, S. (Shoichi). II. Nishimura, N. m. TItle
TA347.B69121991 620'.00I'SI53S-dc20 92-32708
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IABEM-91: International Symposium
on Boundary Element Methods
Organized by
International Association for
Boundary Element Methods (IABEM)
Sponsored by
Japan Society for Computational Methods
in Engineering (JASCOME)
Organizing Committee
Prof. S. Kobayashi (ChaIrman)
Kyoto University, JAPAN
Prof. L. Morino
University of Rome "La Sapienza", ITALY
Prof. W.L. Wendland
University of Stuttgart, GERMANY
Prof. F.J. Rizzo
Iowa State University, USA
Prof. T .A. Cruse
Vanderbilt University, USA
Prof. A. H-D. Cheng
University of Delaware, USA
Local Organizing Committee
S. Kobayashi, Kyoto University
T. Fukui, Fukui University
T. Honma, Hokkaido University
Y. Kagawa, Okayama University
N. Kamiya, Nagoya University
K. Kishimoto, Tokyo Institute of Technology
M. Kitahara, Tokai University
N. Nishimura, Kyoto University
K. Ohnishi, Tokyo Science University
M. Tanaka, Shinshu University
N. Tosaka, Nihon University
R Yuuki, University of Tokyo
Scientific Advisory Committee
Prof. S.N. Atluri Prof. P.K. Banerjee
Prof. D.E. Beskos Dr. H.D. Bui
Prof. T. Burczynski Prof. T .A. Cruse
Prof. J. Dominguez Prof. Qinghua Du
Dr. F. Farassat Prof. T.L. Geers
Dr. J.L. Hess Dr. H.W.M. Hoeijmakers
Prof. S. Kobayashi Prof. G. Maier
Prof. L. Morino Prof. S. Mukherjee
Pre!. J.C. Nedelec Prof. R Piva
Prof. C. Polizzotto Prof. F.J. Rizzo
Prof. P.D. Sclavounos Prof. RP. Shaw
Prof. E.P. Stephan Prof. M. Tanaka
Dr. J.C.F. Telles Prof. N. Tosaka
Prof. J.O. WatSG!l Prof. W. Wendland
Dr. RB. Wilson Prof. J.C. Wu
Dr. E.C. Yates, Jr. Prof. P.J. Zandbergen
Prof. F. Ziegler
Preface
The Boundary Element Methods (BEM) has become one of the most efficient tools for
solving various kinds of problems in engineering science. The International Association for
Boundary Element Methods (IABEM) was established in order to promote and facilitate
the exchange of scientific ideas related to the theory and applications of boundary element
methods.
The aim of this symposium is to provide a forum for researchers in boundary element
methods and boundary-integral formulations in general to present contemporary concepts
and techniques leading to the advancement of capabilities and understanding of this com
putational methodology.
The topics covered in this symposium include mathematical and computational aspects,
applications to solid mechanics, fluid mechanics, acoustics, electromagnetics, heat transfer,
optimization, control, inverse problems and other interdisciplinary problems. Papers deal
ing with the coupling of the boundary element method with other computational methods
are also included.
The editors hope that this volume presents some innovative techniques and useful knowl
edge for the development of the boundary element methods.
February, 1992
S. Kobayashi
N. Nishimura
Contents
Abe, K.
An h-adaptive boundary element method and evaluation of error 1
Ali, A. and D. Ostergaad
Implementation of FE-BE hybrid techniques into finite element pro- 11
grams
Amaya, K., S. Aoki and K. Kishimoto
Optimum location of electrode in cathodic protection system 21
Antes, H. and W. Cheng
Vibrations of Reissner plates by BEM and DjBEM: A comparison 30
Bassanini, P., M.R. Lancia, R. Piva and C.M. Casciola
Numerical approximation of boundary integral equations in three dimen- 40
sional aerodynamics
Burczynski, T.
Shape sensitivity analysis of uncertain static and vibrating systems us- 49
ing stochastic boundary elements
Chahrour, A.H. and M. Ohtsu
BEM analysis of crack propagation in concrete based on fracture 59
mechanics
Cheng, A.H-D. and H. Antes
On free space Green's function for high order Helmholtz equations 67
Dominguez, J. and O. Maeso
Eoundary element model for the seismic analysis of arch dams 72
Fukui, T. and K. Tani
Stability of time domain boundary element method in wave propagation 82
problems
Futagami, T. and H. Ogata
Computational aspect of ground-water management 92
Hirose, S.
Dynamic crack contact analysis by boundary integral equation method 102
Hunt, B. and A.P. Adamson
Current status of the GENESIS methodology for knowledge-based treat- 111
ment of transonic flows, with emphasis on shock fitting and non
dissipative suppression of expansion shocks
Igarashi, H., M. Kuroda and T. Honma
A boundary element analysis of space charge fields 121
Ishiguro, S. and M. Tanaka
A time-stepping boundary element method applied to transient thermo- 129
elasticity
IX
Kamemoto, K and T. Mine
Calculation of aerodynamic characteristics of a heaving and pitching 139
airfoil by a panel-vortex method
Kanoh, M. and T. Kuroki
BEM-WFDM coupled analysis for groundwater resources 149
Kawamura, R
Approximation analysis on 3-dimensional coupled electric potential and 159
hole or electron by boundary element method
Kim, S.
The completed double layer BIEM: A boundary integral method for com- 167
plex microstructures in a viscous fluid
Kimura, M.
Boundary element methods for crack problems 176
Kita, E. and N. Kamiya
An easy adaptive boundary mesh for 2D elastic problem 184
Kitahara, M. and K Nakagawa
Boundary element - node condensed finite element method for three 194
dimensional elastic wave propagation problems
Knopke, B.
The analytical integration of boundary integrals for plate bending 202
Kojima, K
Identification of corrosion profiles in computed thermal tomography by 215
a Volterra integral equation of the second kind
Leung, KL., H.H. Chyou and P.B. Zavareh
A mixed-hybrid variational formulation for coupling BEM and FEM in 222
elastostatics
Matsumoto, T., M. Tanaka and H. Hirata
Sensitivity analysis of steady-state heat conduction problems using 232
boundary element method
Morino, L., M. Gennaretti and P. Petrocchi
A general theory of potential aerodynamics with applications to heli- 242
copter rotor-fuselage interaction
Nishimura, N., A. Furukawa and S. Kobayashi
Regularised boundary integral equations for an inverse problem of crack 252
determination in time domain
Ohtsuka, K
Boundary integral equation defined on a crack approximated with voids 262
Olukoko, O.A., A.A. Becker, and RT. Fenner
Boundary element analysis of frictional slip behaviour in contact 269
problems
x
Onishi, K. and R. Kawamura
Three-dimensional long time prediction of nuclides migration by bound- 279
ary element method
Piltner, R.
Trefftz-type boundary elements for plate problems 288
Poterasu, V.F. and N. Mihalache
Brittle fracture materials by BEM and R-functions 298
Sasaki, N., T. Kuwahara and T. Takeda
The sweeping primitive used for 3-D automatic boundary element mesh 308
generation
Sugino, R. and N. Tosaka
Direct differentiation approach to boundary element method for nonlin- 314
ear water wave problems
Tabata, T., T. Kuwahara and T. Takeda
A formula for the boundary integral in the potential problem of two- 324
dimensional anisotropic materials and its evaluation
Takeda, T. and T. Kuwahara
BEM analysis applied to the electric field near the edge of compound 333
dielectric materials
Tanaka, M., M. Nakamura and H. Ishikawa
Analysis of certain inverse problems in transient heat conduction by the 343
boundary element method
Taniguchi, T. and Y. Fukuoka
Grid generation of arbitrary 3D surface 353
Tosaka, N., T. Honma and T. Manabe
Integral equation analysis of viscous flow between two rotating coaxial 363
disks
Tosaka, N., K. Kakuda, H. Yoshikawa and A. Anjyu
The coupling approach of boundary and finite element methods to in- 373
compressible viscous flow problems
Yamashita, S. and N. Tosaka
Boundary element method for couple stress theory of elasticity 383
Yu, X., M. Isobe, A. Watanabe and K. Sakai
Analysis of wave motion over submerged plate by boundary element 393
method
Yuuki, R., G.Q. Cao and K. Maekawa
Accurate BEM elastostatic analysis for very slender body and thin plate 403
