This book presents a theoretical treatment of nonlinear behaviour of solids and structures in such a way that it is suitable for numerical computation, typically using the Finite Element Method. Starting out from elementary concepts, the author systematically uses the principle of virtual work, initially illustrated by truss structures, to give a self-contained and rigorous account of the basic methods. The author illustrates the combination of translations and rotations by finite deformation beam theories in absolute and co-rotation format, and describes the deformation of a three-dimensional continuum in material form. A concise introduction to finite elasticity is followed by an extension to elasto-plastic materials via internal variables and the maximum dissipation principle. Finally, the author presents numerical techniques for solution of the nonlinear global equations and summarises recent results on momentum and energy conserving integration of time-dependent problems. Exercises, examples and algorithms are included throughout.

A theoretical treatment of nonlinear behaviour of solids and structures, suitable for numerical computation. Includes exercises, examples and algorithms throughout.

About the Author
Steen Krenk is Professor of Structural Mechanics at the Technical University of Denmark, Lyngby.


Book Information
ISBN 9780521830546
Author Steen Krenk
Format Hardback
Page Count 360
Imprint Cambridge University Press
Publisher Cambridge University Press
Weight(grams) 780g
Dimensions(mm) 254mm * 180mm * 23mm