A unified approach to the modeling and analysis of geometrically nonlinear structures
Nonlinear modeling and analysis of structures is a complex but important step in the design and optimization of modern structural systems. Bridging the gap between the practicing engineer and the applied mathematician, Linear and Nonlinear Structural Mechanics:
* Presents mathematically consistent and systematic derivations of comprehensive structural theories
* Details the basic principles of linear and nonlinear structural mechanics
* Shows how to perform nonlinear structural analysis
* Points out important nonlinear structural dynamic behaviors
* Provides ready-to-use governing equations and boundary conditions, ranging from simple linear to complex nonlinear ones, for strings, cables, beams, plates, and shells
Designed to be used as a professional reference for structural engineers as well as a graduate-level textbook, this book provides a unique, unified approach that the reader can readily extend to formulate and analyze different or more complex structures.
Spis treści
PREFACE xv
1 INTRODUCTION 1
2 ELASTl Cl TY 65
3 STRINGS AND CABLES 111
4 BEAMS 171
5 DYNAMICS OF BEAMS 267
6 SURFACE ANALYSIS 355
7 PLATES 371
8 DYNAMl CS OF PLATES 469
9 SHELLS 559
BIBLIOGRAPHY 654
SUBJECT INDEX 732
O autorze
ALI H. NAYFEH received his BS in engineering science and his MS and Ph D in aeronautics and astronautics from Stanford University. He holds honorary doctorates from Marine Technical University, Russia, Technical University of Munich, Germany, and Politechnika Szczecinska, Poland. He is currently University Distinguished Professor of Engineering at Virginia Tech. He is the Editor of the Wiley Series in Nonlinear Science and Editor in Chief of Nonlinear Dynamics and the Journal of Vibration and Control.
PERNGJIN FRANK PAI received his Ph D in engineering mechanics from Virginia Polytechnic Institute and State University. He is the C. W. La Pierre Professor of Mechanical and Aerospace Engineering at the University of Missouri-Columbia. His research concentrates on highly flexible deployable/inflatable structures, structural damage detection, and nonlinear finite elements (www.missouri.edu/~maepai).