Advanced dynamic analysis by boundary element methods
Author(s)
Bibliographic Information
Advanced dynamic analysis by boundary element methods
(Developments in boundary element methods, 7)
Elsevier Applied Science, c1992
Available at 11 libraries
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Note
Includes bibliographical references and index
Description and Table of Contents
Description
Boundary element methods [BEM] have some inherent advantages in dynamic analyses of solids. This volume of the development series of boundary element methods provides advanced treatment of the recent theory and innovative applications related to scalar waves and elastodynamic problems. All chapters of the volume are self-contained and examples described are suggestive for further developments of the advanced BEM.
Some topics covered are as follows: formulations of periodic dynamic two- and three-dimensional as well as axisymmetric problems [chapter 2]; dynamic responses of isolated rigid footings and flexible foundations, interaction between adjacent structures on viscoelastic foundations [chapter 10]; time-domain formulations for two-and-three dimensional as well as axisymmetric scalar wave propagation problems and transient elastodynamic problems [chapter 3 and 4]; dynamic analysis of soil-structure interactions, including those with both linear and nonlinear interface conditions [chapter 5]; elastodynamic scattering from a spherical inclusion with nonlinear interface conditions [chapter 7]; treatments of hypersingular integral equations and different regularization procedures [chapter 6]; and regularized double layer potential formulations for three-dimensional periodic elastodynamic crack problems [chapter 1].
Table of Contents
- Advanced dynamic fracture mechanics analysis, N. Nishimura and S. Kobayashi
- multiregion periodic dynamic analysis by BEM of 2D, 3D and axisymmetric problems, P.K. Banerjee, H.C. Wang and S. Ahmad
- time-domain formulations of BEM for two-dimensional, axisymmetric and three-dimensional scalar wave propagation, A.S.M. Israil, P.K. Banerjee and H.C. Wang
- time-domain formulation of BEM for two-dimensional, axisymmetric and three-dimensional transient elastodynamics, P.K. Banerjee, A.S.M. Israil and H.C. Wang
- transient elastic wave scattering problems by boundary element methods, N.Tosaka and M. Ohmi
- hypersingular boundary integral equations - their occurrence, interpretation, regularization and computation, G. Krishnasamy, F.J. Rizzo and R.J. Rudolphi
- transient elastodynamic analysis for three-dimensional configurations, M. Kitahara, S. Hirose and J.D. Achenbach
- eigenvalue analysis by boundary element method, S.T. Raveendra and P.K. Banerjee
- mathematical foundations of BEM formulations for static and dynamic analyses, H.D. Bui
- progress in 3D calculations and optoelectronic measurements of soil-structure interaction, L. Gaul and M. Plenge.
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