Programming the Finite Element Method
4th Edition
Published on 13. August 2004
Book
Hardback
648 pages
978-0-470-84969-9 (ISBN)
Description
This title demonstrates how to develop computer programmes which solve specific engineering problems using the finite element method. It enables students, scientists and engineers to assemble their own computer programmes to produce numerical results to solve these problems. The first three editions of Programming the Finite Element Method established themselves as an authority in this area. This fully revised 4th edition includes completely rewritten programmes with a unique description and list of parallel versions of programmes in Fortran 90. The Fortran programmes and subroutines described in the text will be made available on the Internet via anonymous ftp, further adding to the value of this title.
More details
Edition
4., Auflage
Language
English
Place of publication
Chichester
United Kingdom
Publishing group
John Wiley and Sons Ltd
Target group
Professional and scholarly
Edition type
Revised edition
Illustrations
Illustrations
Dimensions
Height: 25.2 cm
Width: 18 cm
Thickness: 39 mm
Weight
1220 gr
ISBN-13
978-0-470-84969-9 (9780470849699)
Schweitzer Classification
Other editions
New editions
I. M. Smith | D. V. Griffiths | L. Margetts
Programming the Finite Element Method
Book
10/2013
5th Edition
Wiley
€127.50
Shipment within 15-20 days
Additional editions
Ian M. Smith | Vaughan Griffiths
Programming the Finite Element Method
Book
08/2004
4th Edition
Wiley
€51.90
Article exhausted; check for reprint
Previous edition
I. M. Smith | D. V. Griffiths
Programming the Finite Element Method
Book
12/1997
3rd Edition
Wiley
€80.47
Article exhausted; check for reprint
Content
Preface.
Acknowledgement.
1 Preliminaries: Computer Strategies.
2 Spatial Discretisation by Finite Elements.
3 Programming Finite Element Computations.
4 Static Equilibrium of Structures.
5 Static Equilibrium of Linear Elastic Solids.
6 Material Non-linearity.
7 Steady State Flow.
8 Transient Problems: First Order (Uncoupled).
9 Coupled Problems.
10 Eigenvalue Problems.
11 Forced Vibrations.
12 Parallel Processing of Finite Element Analyses.
References
A Equivalent Nodal Loads.
B Shape Functions and Element Node Numbering.
C Plastic Stress-strain Matrices and Plastic Potential Derivatives.
D main Library Subroutines.
E geom Library Subroutines.
F Parallel Library Subroutines.
Author Index.
Subject Index.