General Continuum Mechanics and Constitutive Modeling
- 1 Edición - 19 de noviembre de 2024
- Última edición
- Autor: Niels Saabye Ottosen
- Idioma: Inglés
General Continuum Mechanics and Constitutive Modeling starts with a comprehensive treatment of tensor algebra that is followed by coverage of strains, stresses, and thermo… Leer más
Descripción
Descripción
General Continuum Mechanics and Constitutive Modeling starts with a comprehensive treatment of tensor algebra that is followed by coverage of strains, stresses, and thermodynamics. General principles for constitutive modeling are presented, including objectivity, Lie-derivative, and covariance, as are issues central to configurational mechanics, such as polyconvexity and invariance principles used to establish balance equations. The book includes a chapter on hyperelasticity which analyzes isotropic and anisotropic materials, and also discusses the distinction between energetic and entropic material response.
The finite element method and classic plasticity based on hypoelasticity are each covered, and the book concludes with a chapter covering plasticity based on hyperplasticity, including isotropy, anisotropy, thermoplasticity, and crystal plasticity.
The finite element method and classic plasticity based on hypoelasticity are each covered, and the book concludes with a chapter covering plasticity based on hyperplasticity, including isotropy, anisotropy, thermoplasticity, and crystal plasticity.
Puntos claves
Puntos claves
- Covers the fundamental concepts of polyconvexity, invariance principles, configurational mechanics, and hyperelasticity and plasticity in a clear and concise manner
- Describes general continuum mechanics and constitutive modeling for large deformations and rotations, with all tensor expressions written in direct notation and component and base vectors referring to arbitrary curvilinear coordinate systems
- Presents general principles for constitutive modeling, including topics such as objectivity, Lie-derivative, covariance, thermoelasticity, the differences between energetic and entropic material response, and more
De interès para
De interès para
Researchers, academics, and advanced undergrad and grad students within the field of solid mechanics
Índice
Índice
1. Tensor algebra in general coordinates
2. Kinematics
3. Stresses and balance equations
4. Thermodynamics
5. General principles for constitutive modeling
6. Configurational mechanics
7. Balance equations established using invariance principles
8. Convexity of strain energy function
9. Hyperelasticity
10. Finite element formulation of hyperplasticity
11. Plasticity based on hypo-elasticity
12. Plasticity based on hyperelasticity
2. Kinematics
3. Stresses and balance equations
4. Thermodynamics
5. General principles for constitutive modeling
6. Configurational mechanics
7. Balance equations established using invariance principles
8. Convexity of strain energy function
9. Hyperelasticity
10. Finite element formulation of hyperplasticity
11. Plasticity based on hypo-elasticity
12. Plasticity based on hyperelasticity
Detalles del producto
Detalles del producto
- Edición: 1
- Última edición
- Publicado: 19 de noviembre de 2024
- Idioma: Inglés
Sobre el autor
Sobre el autor
NO
Niels Saabye Ottosen
has been a Professor in the Solid Mechanics Division, Lund University, Sweden since 1991. His research is focused in continuum mechanics, material modeling, and finite element method.
Afiliaciones y experiencia
Solid Mechanics Division, Lund University, SwedenVer libro en ScienceDirect
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