Handbook of Damage Mechanics Nano to Macro Scale for Materials and Structures by George Z. Voyiadjis
Contents of Damage Mechanics Handbook
- The True Nature of the Decomposition of the Damage Variable
- Damageability and Integrity of Materials: New Concepts of the Damage and Healing Fields
- Damageability and Integrity of Materials: Unrecoverable Damage and Generalized Healing Model
- Partial Damage Mechanics: Introduction
- Mechanics of Self-Regenerating Materials
- Damage and Nonlinear Super Healing with Application to the Design of New Strengthening Theory
- Vibration Analysis of Cracked Microbeams by Using Finite Element Method
- Size Effect on Damage Response of Triangular Flexural Test Method
- Predicting Damage Behavior of Self-Healing Sandwich Panels: Computational Modeling
- Problems of Deformation and Damage Studies of Additively Manufactured Regular Cellular Structures
- Thermo-mechanics of Polymers at Extreme and Failure Conditions: Influence of Strain Rate and Temperature
- Failure Behavior of Aluminum Alloys Under Different Stress States
- Modeling of Failure Resulting from High-Velocity Ballistic Impact
- Ductile Crack Growth Using Cohesive GTN Model
- Auxetic Damping Systems for Blast Vulnerable Structures
- Dynamic Deformation, Damage, and Fracture in Geomaterials
- High-Speed Real-Time X-Ray Visualization of Impact Damage Inside Geomaterials
- Tensile Damage Mechanisms of Concrete Using X-Ray: In Situ Experiments and Mesoscopic Modeling
- Damage Model Strategies to Forecast Concrete Structure Behaviors Under Static and Dynamic Loadings
- Discrete Element Approach to Model Advanced Damage in Concrete Structures Under Impact
- Damage in Concrete Subjected to Impact Loading
- Failure Mechanisms of Ceramics Under Quasi-static and Dynamic Loads: Overview
- Damage in Armor Ceramics Subjected to High-Strain-Rate Dynamic Loadings: The Spherical Expansion Shock Wave Pyrotechnic Test
- Damage in Armor Ceramics Subjected to High-Strain-Rate Dynamic Loadings: The Edge-On Impact Test
- Effective Modeling of Interlaminar Damage in Multilayered Composite Structures Using Zigzag Kinematic Approximations
- Numerical Analysis of Damage by Phase-Field Method
- Micromechanics-Based Models for Induced Damage in Rock-Like Materials
- Application of Continuum Damage Mechanics in Hydraulic Fracturing Simulations
- Damage and Fracture in Brittle Materials with Enriched Finite Element Method: Numerical Study
- Damage and Failure of Hard Rocks Under True Triaxial Compression
- Plastic Deformation and Damage in Rocks Under Coupled Thermo-hydromechanical Conditions: Numerical Study
- Frictional Contact Between a Blunt Tool and Quasi-brittle Rock with Damage: Numerical Modeling
- Stochastic Micromechanics-Based Probabilistic Damage and Repair Models for Cementitious Composites
- Class of Damage-Healing Models for Cementitious Composites at Multi-scales
- Influences of Imperfect Interfaces on Effective Elastoplastic Responses of Particulate Composites
- New Chemo-Mechanical Theory of Corrosion Damage in Concrete Under Sulfate Attack
- Strain Energy-Based Thermo-elastoviscoplastic Two-Parameter Damage Self-Healing Formulations for Bituminous Composite Materials
- Computational Algorithms for Strain Energy-Based Thermo-elastoviscoplastic Two-Parameter Damage Self-Healing Models for Bituminous Composites
- Failure Mechanics of Geomaterials
- Fractals and Mechanics of Fracture
- Lattice and Particle Modeling of Damage Phenomena
- Toughening and Instability Phenomena in Quantized Fracture Process: Euclidean and Fractal Cracks
- Two-Dimensional Discrete Damage Models: Lattice and Rational Models
- From Single Crystal to Polycrystal Plasticity: Overview of Main Approaches
- Micromechanics for Heterogeneous Material Property Estimation
- Microstructural Behavior and Fracture in Crystalline Materials: Overview
- Molecular Dynamics Simulations of Plastic Damage in Metals