Ebook: Defect and Material Mechanics: Proceedings of the International Symposium on Defect and Material Mechanics (ISDMM), held in Aussois, France, March 25–29, 2007
- Tags: Theoretical and Applied Mechanics, Continuum Mechanics and Mechanics of Materials, Appl.Mathematics/Computational Methods of Engineering, Systems and Information Theory in Engineering, Structural Mechanics
- Year: 2008
- Publisher: Springer Netherlands
- Edition: 1
- Language: English
- pdf
This volume presents recent developments in the theory of defects and the mechanics of material forces. Most of the contributions were presented at the International Symposium on Defect and Material Forces (ISDMM2007), held in Aussois, France, March 25-29, 2007.
The mechanics of material forces, originated in the works of Eshelby, provide a rational framework for the description of driving forces on evolving inhomogeneities and structural changes in continua. The general eshelbian mechanics formulation comes up with a unifying treatment of different phenomena like fracture and damage evolution, phase transitions, plasticity and dislocation motion, etc.
The articles concern both theoretical and computational aspects of the material mechanics of defects. Among the addressed topics are fracture and damage, electromagnetoelasticity, plasticity, distributed dislocations, thermodynamics, poroelasticity, generalized continua, structural optimization, conservation laws and symmetries, multiscale approaches, and numerical solution strategies.
This is a hardbound spin-off reprinted from The International Journal of Fracture 147:1-4.
This volume presents recent developments in the theory of defects and the mechanics of material forces. Most of the contributions were presented at the International Symposium on Defect and Material Forces (ISDMM2007), held in Aussois, France, March 25-29, 2007.
The mechanics of material forces, originated in the works of Eshelby, provide a rational framework for the description of driving forces on evolving inhomogeneities and structural changes in continua. The general eshelbian mechanics formulation comes up with a unifying treatment of different phenomena like fracture and damage evolution, phase transitions, plasticity and dislocation motion, etc.
The articles concern both theoretical and computational aspects of the material mechanics of defects. Among the addressed topics are fracture and damage, electromagnetoelasticity, plasticity, distributed dislocations, thermodynamics, poroelasticity, generalized continua, structural optimization, conservation laws and symmetries, multiscale approaches, and numerical solution strategies.
This is a hardbound spin-off reprinted from The International Journal of Fracture 147:1-4.
This volume presents recent developments in the theory of defects and the mechanics of material forces. Most of the contributions were presented at the International Symposium on Defect and Material Forces (ISDMM2007), held in Aussois, France, March 25-29, 2007.
The mechanics of material forces, originated in the works of Eshelby, provide a rational framework for the description of driving forces on evolving inhomogeneities and structural changes in continua. The general eshelbian mechanics formulation comes up with a unifying treatment of different phenomena like fracture and damage evolution, phase transitions, plasticity and dislocation motion, etc.
The articles concern both theoretical and computational aspects of the material mechanics of defects. Among the addressed topics are fracture and damage, electromagnetoelasticity, plasticity, distributed dislocations, thermodynamics, poroelasticity, generalized continua, structural optimization, conservation laws and symmetries, multiscale approaches, and numerical solution strategies.
This is a hardbound spin-off reprinted from The International Journal of Fracture 147:1-4.
Content:
Front Matter....Pages I-V
Preface....Pages 1-1
Reciprocity in fracture and defect mechanics....Pages 3-11
Configurational forces and gauge conditions in electromagnetic bodies....Pages 13-19
The anti-symmetry principle for quasi-static crack propagation in Mode III....Pages 21-33
Configurational balance and entropy sinks....Pages 35-43
Application of invariant integrals to the problems of defect identification....Pages 45-54
On application of classical Eshelby approach to calculating effective elastic moduli of dispersed composites....Pages 55-66
Material forces in finite elasto-plasticity with continuously distributed dislocations....Pages 67-81
Distributed dislocation approach for cracks in couple-stress elasticity: shear modes....Pages 83-102
Bifurcation of equilibrium solutions and defects nucleation....Pages 103-107
Theoretical and numerical aspects of the material and spatial settings in nonlinear electro-elastostatics....Pages 109-116
Energy-based r-adaptivity: a solution strategy and applications to fracture mechanics....Pages 117-132
Variational design sensitivity analysis in the context of structural optimization and configurational mechanics....Pages 133-155
An anisotropic elastic formulation for configurational forces in stress space....Pages 157-161
Conservation laws, duality and symmetry loss in solid mechanics....Pages 163-172
Phase field simulation of domain structures in ferroelectric materials within the context of inhomogeneity evolution....Pages 173-180
An adaptive singular finite element in nonlinear fracture mechanics....Pages 181-190
Moving singularities in thermoelastic solids....Pages 191-198
Dislocation tri-material solution in the analysis of bridged crack in anisotropic bimaterial half-space....Pages 199-217
Study of the simple extension tear test sample for rubber with Configurational Mechanics....Pages 219-225
Stress-driven diffusion in a deforming and evolving elastic circular tube of single component solid with vacancies....Pages 227-234
Mode II intersonic crack propagation in poroelastic media....Pages 235-267
Material forces for crack analysis of functionally graded materials in adaptively refined FE-meshes....Pages 269-283
A multiscale approach to damage configurational forces....Pages 285-294
This volume presents recent developments in the theory of defects and the mechanics of material forces. Most of the contributions were presented at the International Symposium on Defect and Material Forces (ISDMM2007), held in Aussois, France, March 25-29, 2007.
The mechanics of material forces, originated in the works of Eshelby, provide a rational framework for the description of driving forces on evolving inhomogeneities and structural changes in continua. The general eshelbian mechanics formulation comes up with a unifying treatment of different phenomena like fracture and damage evolution, phase transitions, plasticity and dislocation motion, etc.
The articles concern both theoretical and computational aspects of the material mechanics of defects. Among the addressed topics are fracture and damage, electromagnetoelasticity, plasticity, distributed dislocations, thermodynamics, poroelasticity, generalized continua, structural optimization, conservation laws and symmetries, multiscale approaches, and numerical solution strategies.
This is a hardbound spin-off reprinted from The International Journal of Fracture 147:1-4.
Content:
Front Matter....Pages I-V
Preface....Pages 1-1
Reciprocity in fracture and defect mechanics....Pages 3-11
Configurational forces and gauge conditions in electromagnetic bodies....Pages 13-19
The anti-symmetry principle for quasi-static crack propagation in Mode III....Pages 21-33
Configurational balance and entropy sinks....Pages 35-43
Application of invariant integrals to the problems of defect identification....Pages 45-54
On application of classical Eshelby approach to calculating effective elastic moduli of dispersed composites....Pages 55-66
Material forces in finite elasto-plasticity with continuously distributed dislocations....Pages 67-81
Distributed dislocation approach for cracks in couple-stress elasticity: shear modes....Pages 83-102
Bifurcation of equilibrium solutions and defects nucleation....Pages 103-107
Theoretical and numerical aspects of the material and spatial settings in nonlinear electro-elastostatics....Pages 109-116
Energy-based r-adaptivity: a solution strategy and applications to fracture mechanics....Pages 117-132
Variational design sensitivity analysis in the context of structural optimization and configurational mechanics....Pages 133-155
An anisotropic elastic formulation for configurational forces in stress space....Pages 157-161
Conservation laws, duality and symmetry loss in solid mechanics....Pages 163-172
Phase field simulation of domain structures in ferroelectric materials within the context of inhomogeneity evolution....Pages 173-180
An adaptive singular finite element in nonlinear fracture mechanics....Pages 181-190
Moving singularities in thermoelastic solids....Pages 191-198
Dislocation tri-material solution in the analysis of bridged crack in anisotropic bimaterial half-space....Pages 199-217
Study of the simple extension tear test sample for rubber with Configurational Mechanics....Pages 219-225
Stress-driven diffusion in a deforming and evolving elastic circular tube of single component solid with vacancies....Pages 227-234
Mode II intersonic crack propagation in poroelastic media....Pages 235-267
Material forces for crack analysis of functionally graded materials in adaptively refined FE-meshes....Pages 269-283
A multiscale approach to damage configurational forces....Pages 285-294
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