| Titre : |
Finite elements methods for thin shell problems |
| Type de document : |
texte imprimé |
| Auteurs : |
Michel Bernadou, Auteur ; Claude Andrew James, Traducteur |
| Editeur : |
Chichester : J. Wiley and sons |
| Année de publication : |
1995 |
| Autre Editeur : |
Masson |
| Importance : |
XVI-360 p. |
| Présentation : |
ill., couv. ill. |
| Format : |
25 cm |
| ISBN/ISSN/EAN : |
978-0-471-95647-1 |
| Prix : |
300 F |
| Note générale : |
Éditeur : Wiley–Blackwell; 1st English Language Ed édition (24 janvier 1996)
Langue : Anglais
Relié : 376 pages
ISBN-10 : 0471956473
ISBN-13 : 978-0471956471
Poids de l'article : 750 g
Dimensions : 16 x 2.5 x 25 cm |
| Langues : |
Anglais (eng) Langues originales : Français (fre) |
| Mots-clés : |
shell equations koiter's model element methods joint approximation of the geometry linear bucklingpotential energy elastic shell implementation shape optimisation functionals equation to program |
| Index. décimale : |
531 |
| Résumé : |
This book emphasizes and analyzes all approximations to be applied to thin shell mechanics. The reliability and implementation of these methods are important in solving engineering problems when working with dams, turbine blades, shell junctions, buckling loads, and shape optimization.
Finite Element Methods for Thin Shell Problems Michel Bernadou Pôle Universitaire Léonard de Vinci, Paris La Défense, and INRIA–Rocquencourt, France This self–contained book provides a complete mathematical analysis of general thin shell equations and gives a representative set of numerical analysis results on thin shell problems by emphasizing their approximation and implementation. The main results of mathematical and numerical analysis related to the approximation of the solutions of thin shell problems by various finite element methods are presented. The different classical models of thin shells are considered, the existence and the uniqueness of solutions as well as the convergence of the different methods are studied. Beyond this theoretical analysis, the implementation and the use of these various finite element methods to solve engineering problems, such as arch dams, turbine blades, shell junctions, buckling loads and shape optimization, are carefully described. |
| Note de contenu : |
Bibliogr. p. 317-328. Index |
Finite elements methods for thin shell problems [texte imprimé] / Michel Bernadou, Auteur ; Claude Andrew James, Traducteur . - Chichester : J. Wiley and sons : [S.l.] : Masson, 1995 . - XVI-360 p. : ill., couv. ill. ; 25 cm. ISBN : 978-0-471-95647-1 : 300 F Éditeur : Wiley–Blackwell; 1st English Language Ed édition (24 janvier 1996)
Langue : Anglais
Relié : 376 pages
ISBN-10 : 0471956473
ISBN-13 : 978-0471956471
Poids de l'article : 750 g
Dimensions : 16 x 2.5 x 25 cm Langues : Anglais ( eng) Langues originales : Français ( fre)
| Mots-clés : |
shell equations koiter's model element methods joint approximation of the geometry linear bucklingpotential energy elastic shell implementation shape optimisation functionals equation to program |
| Index. décimale : |
531 |
| Résumé : |
This book emphasizes and analyzes all approximations to be applied to thin shell mechanics. The reliability and implementation of these methods are important in solving engineering problems when working with dams, turbine blades, shell junctions, buckling loads, and shape optimization.
Finite Element Methods for Thin Shell Problems Michel Bernadou Pôle Universitaire Léonard de Vinci, Paris La Défense, and INRIA–Rocquencourt, France This self–contained book provides a complete mathematical analysis of general thin shell equations and gives a representative set of numerical analysis results on thin shell problems by emphasizing their approximation and implementation. The main results of mathematical and numerical analysis related to the approximation of the solutions of thin shell problems by various finite element methods are presented. The different classical models of thin shells are considered, the existence and the uniqueness of solutions as well as the convergence of the different methods are studied. Beyond this theoretical analysis, the implementation and the use of these various finite element methods to solve engineering problems, such as arch dams, turbine blades, shell junctions, buckling loads and shape optimization, are carefully described. |
| Note de contenu : |
Bibliogr. p. 317-328. Index |
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