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Reanalysis of Structures: A Unified Approach for Linear, Nonlinear, Static and Dynamic Systems

Reanalysis of Structures: A Unified Approach for Linear, Nonlinear, Static and Dynamic Systems

Authors
Publisher Springer Netherlands
Year
Pages 308
Version hardback
Language English
ISBN 9781402081972
Categories Artificial intelligence
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Book description

This book deals with various computational procedures for multiple repeated analyses (reanalysis) of structures, and presents them in a unified approach. It meets the need for a general text covering the basic concepts and methods as well as recent developments in this area. To clarify the presentation, many illustrative examples and numerical results are demonstrated. Previous books on structural analysis do not cover most of the material presented here.

Reanalysis of Structures: A Unified Approach for Linear, Nonlinear, Static and Dynamic Systems

Table of contents

Contents 1 Static Analysis 1.1 Linear Analysis of Framed Structures 1.2 Linear Analysis of Continuum Structures 1.3 Solution of the Linear Equilibrium Equations 1.3.1 Matrix Factorization 1.3.2 Iterative Solution Procedures 1.4 Nonlinear Analysis 1.4.1 Geometric Nonlinearity 1.4.2 Material Nonlinearity 1.4.3 Time Varying Loads 1.4.4 Buckling Analysis 1.4.5 Solution of the Nonlinear Equations References 2 Vibration Analysis 2.1 Free Vibration 2.1.1 Properties of the Eigenproblem 2.1.2 The Standard Eigenproblem and the Rayleigh Quotient 2.2 Solution of the Eigenproblem 2.2.1 Static Condensation 2.2.2 Solution Methods 2.3 Vector Iteration Methods 2.3.1 Inverse Vector Iteration 2.3.2 Vector Iteration with Shifts 2.3.3 Matrix Deflation and Gram-Schmidt Orthogonalization 2.4 Transformation Methods 2.5 Polynomial Iterations 2.6 Rayleigh-Ritz Analysis 2.6.1 Approximate Eigenproblem Solution 2.6.2 Load-Dependent Ritz Vectors 2.7 The Lanczos Method 2.8 Subspace Iteration References 3 Dynamic Analysis 3.1 Linear Dynamic Analysis 3.1.1 Direct Integration 3.1.2 Mode Superposition 3.1.3 Special Analysis Procedures 3.2 Reduced Basis 3.2.1 Static Analysis 3.2.2 Dynamic Analysis 3.3 Nonlinear Dynamic Analysis 3.3.1 Implicit Integration 3.3.2 Mode Superposition References 4 Reanalysis of Structures 4.1 Design Variables 4.2 Formulation of Static Reanalysis 4.2.1 Linear Static Reanalysis 4.2.2 Nonlinear Static Reanalysis 4.3 Formulation of Vibration Reanalysis 4.3.1 Eigenproblem Reanalysis 4.3.2 Iterative Procedures 4.4 Formulation of Dynamic Reanalysis 4.4.1 Linear Dynamic Reanalysis 4.4.2 Nonlinear Dynamic Reanalysis 4.5 Reanalysis Methods 4.5.1 Direct Methods 4.5.2 Approximate Methods 4.5.3 The Combined Approximations Approach References 5 Static Reanalysis 5.1 Determination of the Basis Vectors 5.1.1 The Binomial Series 5.1.2 Calculation of the Basis Vectors 5.1.3 Convergence of the Series 5.2 Linear Reanalysis 5.2.1 Coupled Basis Vectors 5.2.2 Uncoupled Basis Vectors 5.3 Topological Changes 5.3.1 Number of DOF is Decreased 5.3.2 Number of DOF is Increased 5.4 Nonlinear Analysis and Reanalysis 5.4.1 Problem Formulation 5.4.2 Solution by Combined Approximations 5.4.3 Procedures for Analysis and Reanalysis References 6 Vibration Reanalysis 6.1 The Reduced Eigenproblem 6.1.1 Problem Formulation 6.1.2 Determination of the Basis Vectors 6.2 Improved Basis Vectors 6.2.1 Gram-Schmidt Orthogonalizations of the Modes 6.2.2 Shifts of the Basis Vectors 6.2.3 Gram-Schmidt Orthogonalizations of the Basis Vectors 6.3 General Solution Procedure 6.4 Numerical Examples 6.5 Reanalysis by Iterative Procedures References 7 Dynamic Reanalysis 7.1 Linear Dynamic Reanalysis 7.1.1 Solution by Direct Integration 7.1.2 Solution by Mode Superposition 7.2 Nonlinear Dynamic Reanalysis 7.2.1 Solution by Implicit Integration 7.2.2 Solution by Mode Superposition References 8 Direct Reanalysis 8.1 Direct Methods 8.1.1 A Single Rank-One Change 8.1.2 Multiple Rank-One Changes 8.1.3 General Procedure 8.2 Direct Solutions by Combined Approximations. 8.2.1 Multiple Rank-One Changes 8.2.2 Solution Procedure

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