| Titre : |
Computational methods for plasticity : theory and applications |
| Type de document : |
texte imprimé |
| Auteurs : |
Eduardo de Souza Neto, Auteur ; Djordje Peric, Auteur ; David Roger Jones Owen, Auteur |
| Editeur : |
New York : John Wiley & Sons |
| Année de publication : |
2008 |
| Importance : |
XXII, 791 p. |
| Présentation : |
ill. |
| Format : |
25 cm |
| ISBN/ISSN/EAN : |
978-0-470-69452-7 |
| Note générale : |
Bibliogr. p. [765]-781. - Index |
| Langues : |
Anglais (eng) |
| Mots-clés : |
Plasticity -- Mathematical models
Plasticity -- Data processing |
| Index. décimale : |
539.214 Plasticité. Plastométrie |
| Résumé : |
The book, Offers a self-contained text that allows the reader to learn computational plasticity theory and its implementation from one volume. Includes many numerical examples that illustrate the application of the methodologies described. Provides introductory material on related disciplines and procedures such as tensor analysis, continuum mechanics and finite elements for non-linear solid mechanics. Is accompanied by purpose-developed finite element software that illustrates many of the techniques discussed in the text, downloadable from the book’s companion website.
This comprehensive text will appeal to postgraduate and graduate students of civil, mechanical, aerospace and materials engineering as well as applied mathematics and courses with computational mechanics components. It will also be of interest to research engineers, scientists and software developers working in the field of computational solid mechanics. |
| Note de contenu : |
Summary :
1. Elements of tensor analysis
2. Elements of continuum mechanics and thermodynamics
3. The finite element method in quasi-static nonlinear solid mechanics
4. Overview of the program structure
5. The mathematical theory of plasticity
6. Finite elements in small-strain plasticity problems
7. Computations with other basic plasticity models
8. Plane stress plasticity
9. Advanced plasticity models
10. Viscoplasticity
11. Damage mechanics
12. Finite strain hyperelasticity
13. Finite strain elastoplasticity
14. Finite elements for large-strain incompressibility
15. Anisotropic finite plasticity : single crystal |
Computational methods for plasticity : theory and applications [texte imprimé] / Eduardo de Souza Neto, Auteur ; Djordje Peric, Auteur ; David Roger Jones Owen, Auteur . - New York : John Wiley & Sons, 2008 . - XXII, 791 p. : ill. ; 25 cm. ISBN : 978-0-470-69452-7 Bibliogr. p. [765]-781. - Index Langues : Anglais ( eng)
| Mots-clés : |
Plasticity -- Mathematical models
Plasticity -- Data processing |
| Index. décimale : |
539.214 Plasticité. Plastométrie |
| Résumé : |
The book, Offers a self-contained text that allows the reader to learn computational plasticity theory and its implementation from one volume. Includes many numerical examples that illustrate the application of the methodologies described. Provides introductory material on related disciplines and procedures such as tensor analysis, continuum mechanics and finite elements for non-linear solid mechanics. Is accompanied by purpose-developed finite element software that illustrates many of the techniques discussed in the text, downloadable from the book’s companion website.
This comprehensive text will appeal to postgraduate and graduate students of civil, mechanical, aerospace and materials engineering as well as applied mathematics and courses with computational mechanics components. It will also be of interest to research engineers, scientists and software developers working in the field of computational solid mechanics. |
| Note de contenu : |
Summary :
1. Elements of tensor analysis
2. Elements of continuum mechanics and thermodynamics
3. The finite element method in quasi-static nonlinear solid mechanics
4. Overview of the program structure
5. The mathematical theory of plasticity
6. Finite elements in small-strain plasticity problems
7. Computations with other basic plasticity models
8. Plane stress plasticity
9. Advanced plasticity models
10. Viscoplasticity
11. Damage mechanics
12. Finite strain hyperelasticity
13. Finite strain elastoplasticity
14. Finite elements for large-strain incompressibility
15. Anisotropic finite plasticity : single crystal |
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