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Full Description
Damage and Healing Mechanics of Materials: Metals and Metal Matrix Composites covers the fundamentals of damage mechanics, with various damage models presented coupled with elastic and elasto-plastic behavior. Experimental investigations and the related data for damage in composite materials are included, as are computational modeling and simulation methods for investigating damage and healing in various materials and structures. Healing mechanics using both scalars and more general theory based on tensor notations are discussed, as are applications of damage mechanics. Undamageable materials, the generalized method of cells, phase field modeling, cyclic plasticity concepts, and more are all also covered.
Contents
CHAPTER 1 Introduction
CHAPTER 2 Uniaxial tension in metals
CHAPTER 3 Uniaxial tension in elastic metal matrix composites
CHAPTER 4 Uniaxial tension in elasto-plastic metal matrix composites: vector formulation
PART II Anisotropic damage mechanics - tensor formulation
CHAPTER 5 Damage and elasticity in metals
CHAPTER 6 Damage and plasticity in metals
CHAPTER 7 Metal matrix composites—overall approach
CHAPTER 8 Metal matrix composites—local approach
CHAPTER 9 Equivalence of the overall and local approaches
CHAPTER 10 Metal matrix composites—local and interfacial damage
CHAPTER 11 Symmetrization of the effective stress tensor
CHAPTER 12 Experimental damage investigation
CHAPTER 13 High cyclic fatigue damage for uni-directional metal matrix composites
CHAPTER 14 Anisotropic cyclic damage-plasticity models for metal matrix composites
PART III Advanced topics in damage mechanics
CHAPTER 15 Damage in metal matrix composites using the generalized cells model
CHAPTER 16 The kinematics of damage for finite-strain elasto-plastic solids
CHAPTER 17 A coupled anisotropic damage model for the inelastic response of composite materials
PART IV Damage mechanics with fabric tensors
CHAPTER 18 Damage mechanics with fabric tensors
CHAPTER 19 Continuum approach to damage mechanics of composite materials with fabric tensors
CHAPTER 20 Micromechanical approach to damage mechanics of composite materials with fabric tensors
CHAPTER 21 Experimental study and fabric tensor quantification of micro-crack distributions in composite materials
PART V Introduction to healing mechanics
CHAPTER 22 Mechanics of damage, healing, damageability, and integrity of materials
CHAPTER 23 Introduction to the mechanics and design of undamageable materials
CHAPTER 24 The theory of elastic undamageable materials
CHAPTER 25 Governing differential equations for the mechanics of undamageable materials
CHAPTER 26 Continuum damage-healing mechanics with introduction to new healing variables
CHAPTER 27 A thermodynamic consistent damage and healing model for self-healing materials
PART VI Applications of damage mechanics
CHAPTER 28 Effects of fatigue damage and wear on fretting fatigue under partial slip condition
CHAPTER 29 Phase field based nonlocal anisotropic damage mechanics model
CHAPTER 30 Fatigue damage analysis of double-lap bolted joints considering the effects of hole cold expansion and bolt clamping force
CHAPTER 31 Fatigue and fretting fatigue life prediction of double-lap bolted joints using continuum damage mechanics based approach
CHAPTER 32 Analysis on the fatigue damage evolution of notched specimens with consideration of cyclic plasticity
Appendix A: Formulas for Chapter 7
Appendix B: Formulas for Chapter 8
Appendix C: Formulas for Chapter 11
Appendix D: Formulas for Chapter 12
