Titre : |
Mechanics of solid polymers : Theory and computational modeling |
Type de document : |
texte imprimé |
Auteurs : |
Jörgen Bergström, Auteur |
Editeur : |
Amsterdam [Nederland] : Elsevier |
Année de publication : |
2015 |
Collection : |
Plastics Design Library |
Importance : |
XIV-509 p. |
Présentation : |
ill. |
Format : |
24 cm |
ISBN/ISSN/EAN : |
978-0-323-31150-2 |
Prix : |
144 E |
Note générale : |
Index - Exercices - Bibliogr. |
Langues : |
Anglais (eng) |
Catégories : |
Elastomères -- Propriétés mécaniques Eléments finis, Méthode des Matières plastiques -- Propriétés mécaniques Polymères -- Problèmes et exercices Polymères -- Propriétés mécaniques Rhéologie
|
Index. décimale : |
668.4 Plastiques, vinyles |
Résumé : |
Very few polymer mechanics problems are solved with only pen and paper today, and virtually all academic research and industrial work relies heavily on finite element simulations and specialized computer software. Introducing and demonstrating the utility of computational tools and simulations, Mechanics of Solid Polymers provides a modern view of how solid polymers behave, how they can be experimentally characterized, and how to predict their behavior in different load environments.
Reflecting the significant progress made in the understanding of polymer behaviour over the last two decades, this book will discuss recent developments and compare them to classical theories. The book shows how best to make use of commercially available finite element software to solve polymer mechanics problems, introducing readers to the current state of the art in predicting failure using a combination of experiment and computational techniques. Case studies and example Matlab code are also included.
As industry and academia are increasingly reliant on advanced computational mechanics software to implement sophisticated constitutive models – and authoritative information is hard to find in one place - this book provides engineers with what they need to know to make best use of the technology available. |
Note de contenu : |
1. Introduction and overview
2. Experimental characterization techniques
3. Finite element analysis as an engineering tool
4. Continuum mechanics foundations
5. Elasticity/hyperelasticity
6. Linearviscoelasticity
7. Plasticity models
8. Viscoplasticity models
9. Determination of material parameters from experimental data
10. User material subroutines
11. Material modeling case studies |
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