This book contains thirty peer-reviewed papers that are based on the presentations made at the symposium on ''Damage Mechanics in Engineering Materials'' on the occasion of the Joint ASME/ASCE/SES Mechanics Conference (McNU97), held in Evanston, Illinois, June 28-July 2, 1997. The key area of discussion was on the constitutive modeling of damage mechanics in engineering materials encompassing the following topics: macromechanics/micromechanical constitutive modeling, experimental procedures, numerical modeling, inelastic behavior, interfaces, damage, fracture, failure, computational methods.
Author(s): Voyiadjis G.Z., Ju J.W., Chaboche J.-L.
Year: 1998
Language: English
Pages: 546
Tags: Механика;Механика деформируемого твердого тела;Механика разрушения;Научные статьи и сборники
Front Cover......Page 1
Damage Mechanics in Engineering Materials......Page 4
Copyright Page......Page 5
TABLE OF CONTENTS......Page 8
Foreword......Page 6
PART I: DAMAGE MECHANICS......Page 12
Chaptet 1. Continuum Damage Mechanics of Composites. Towards a Unified Approach......Page 14
Chaptet 2. Space of Damage Conjugate Force and Damage Potential of Elastic-Plastic-Damage Materials......Page 38
Chaptet 3. Kinematics of Large Elastoplastic Damage Deformation......Page 56
Chaptet 4. Scale and Boundary Conditions Effects in Elasticity and Damage Mechanics of Random Composites......Page 76
Chaptet 5. The Effect of Fiber Bridging on Self-Similar Crack Growth: A Penny-shaped Crack Evolvement in a Unidirectional, Fibrous composite......Page 92
Chaptet 6. Crack-tip singularity in damaged materials......Page 106
Chaptet 7. Micromechanics of Fatigue Crack Initiation of Single Crystal under Plane Strain......Page 126
Chaptet 8. The sliding crack model revisited......Page 136
Chaptet 9. Damage evolution rule for multiaxial variable loading......Page 156
Chaptet 10. A Micromechanical Damage Model of Fiber Composites with Nonlinear Interface: Bulk, Tension and Compression Response......Page 174
PART II: LOCALIZATION AND DAMAGE......Page 192
Chaptet 11. Dynamic localized fracture in inelastic solids......Page 194
Chaptet 12. Macromechanical Description of Micro-Shear Banding......Page 214
Chaptet 13. Some Remarks on Gradient and Nonlocal Damage Theories......Page 234
Chaptet 14. Catastrophic slip phenomena in crystalline materials......Page 248
PART III: DAMAGE IN BRITTLE MATERIALS......Page 268
Chaptet 15. A comparative study of isotropic and anisotropic descriptions of damage in concrete structures......Page 270
Chaptet 16. Advanced Thermomechanical Constitutive Models for Airfield Concrete Pavement under High Temperatures......Page 286
Chaptet 17. Mechanical behavior of thin-film coating/substrate systems under nanoindentation......Page 298
Chaptet 18. On the Continuum Description of Damage in Fiber-Reinforced Composites......Page 314
Chaptet 19. A mesocrack damage and friction coupled model for brittle materials......Page 332
Chaptet 20. Anisotropic damage model for the triaxial creep behaviour of plain concrete......Page 348
Chaptet 21. Damage and fracture modeling of 4D CC composites......Page 362
PART IV: DAMAGE IN METALS AND METAL MATRIX COMPOSITES......Page 380
Chaptet 22. Prediction of damaged behavior and failure of a metal matrix composite using a multiscale approach......Page 382
Chaptet 23. Effect of Microstructural Architecture on Flow/Damage Surfaces for Metal Matrix Composites......Page 396
Chaptet 24. Calibration and validation of an anisotropic elasto-plastic damage model for sheet metal forming......Page 412
Chaptet 25. Modeling of Oxidation and its Effect on the Crack Growth Resistance of Titanium Alloys......Page 432
Chaptet 26. A first step toward functionally graded plasticity in porous materials......Page 452
PART V: COMPUTATIONAL DAMAGE MODELS......Page 468
Chaptet 27. Modeling of Delamination Using a Layerwise Element with Enhanced Strains......Page 470
Chaptet 28. A Computational Damage Mechanics Approach for Laminates: Identification and Comparison with Experimental Results......Page 492
PART VI: DAMAGE IN POLYMERS AND ELASTOMERS......Page 512
Chaptet 29. Damaged hyperelastic solid with an induced volume variation. Effect of loading paths......Page 514
Chaptet 30. A Micromechanics Approach to Predict Strength & Stiffness of Polymer Matrix Composites......Page 534
Auther Index......Page 554
