Computational Continuum Mechanics

Computational Continuum Mechanics

EnglishHardbackPrint on demand
Shabana, Ahmed A.
Cambridge University Press
EAN: 9780521885690
Print on demand
Delivery on Thursday, 20. of February 2025
CZK 2,395
Common price CZK 2,661
Discount 10%
pc
Do you want this product today?
Oxford Bookshop Praha Korunní
not available
Librairie Francophone Praha Štěpánská
not available
Oxford Bookshop Ostrava
not available
Oxford Bookshop Olomouc
not available
Oxford Bookshop Plzeň
not available
Oxford Bookshop Brno
not available
Oxford Bookshop Hradec Králové
not available
Oxford Bookshop České Budějovice
not available
Oxford Bookshop Liberec
not available

Detailed information

This book presents the nonlinear theory of continuum mechanics and demonstrates its use in developing nonlinear computer formulations for large displacement dynamic analysis. Basic concepts used in continuum mechanics are presented and used to develop nonlinear general finite element formulations that can be effectively used in large displacement analysis. The book considers two nonlinear finite element dynamic formulations: a general large deformation finite element formulation and a formulation that can efficiently solve small deformation problems that characterize very stiff structures. The book presents material clearly and systematically, assuming the reader has only basic knowledge in matrix and vector algebra and dynamics. The book is designed for use by advanced undergraduates and first-year graduate students. It is also a reference for researchers, practising engineers, and scientists working in computational mechanics, bio-mechanics, computational biology, multibody system dynamics, and other fields of science and engineering using the general continuum mechanics theory.
EAN 9780521885690
ISBN 0521885698
Binding Hardback
Publisher Cambridge University Press
Publication date March 10, 2008
Pages 348
Language English
Dimensions 260 x 184 x 25
Country United Kingdom
Readership Professional & Scholarly
Authors Shabana, Ahmed A.