Uncertainty modeling in finite element, fatigue and stability of systems
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Bibliographic Information
Uncertainty modeling in finite element, fatigue and stability of systems
(Stability, vibration and control of systems / edited by Ardeshir Guran and Daniel J. Inman, series B ; 9)
World Scientific, 1997
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Description and Table of Contents
Description
The functionality of modern structural, mechanical and electrical or electronic systems depends on their ability to perform under uncertain conditions. Consideration of uncertainties and their effect on system behavior is an essential and integral part of defining systems. In eleven chapters, leading experts present an overview of the current state of uncertainty modeling, analysis and design of large systems in four major areas: finite and boundary element methods (common structural analysis techniques), fatigue, stability analysis, and fault-tolerant systems. The content of this book is unique; it describes exciting research developments and challenges in emerging areas, and provide a sophisticated toolbox for tackling uncertainty modeling in real systems.
Table of Contents
- Probabilistic finite element analysis of large structural systems, S. Mahadevan
- reliability evaluation of structures using nonlinear SFEM, A. Haldar and L.-W. Gao
- finite element method for stochastic structures based on inverse of stiffness matrix, I. Elishakoff and Y.-J. Ren
- the weighted integral method and the variability response function as part of an SFEM formulation, G. Deodatis and L. Graham
- response of a vibrating structure to turbulent wall pressure - fluid-loaded structure modes series and boundary element method, P.J.T. Filippi and D. Mazzoni
- reliability-based structural fatigue damage evaluation and maintenance using non-destructive inspections, Z.-W. Zhao and A. Haldar
- uncertainty modelling in structural stability, B.W. Yeigh and M. Shinozuka
- global stability analysis of nonlinear dynamical systems, R. Valery Roy
- dynamic random snap-buckling of composite shallow shells, R. Heuer et al
- buckling analysis and design of imperfection-sensitive structures, G.V. Palassopoulos
- basic concepts of fault-tolerant computing design, C. Aktouf et al.
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