Handbook of Damage Mechanics Nano to Macro Scale for Materials and Structures /

This authoritative reference provides comprehensive coverage of the topics of damage and healing mechanics. Computational modeling of constitutive equations is provided as well as solved examples in engineering applications. A wide range of materials that engineers may encounter are covered, includi...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor Corporativo: SpringerLink (Online service)
Otros Autores: Voyiadjis, George Z. (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York, NY : Springer New York : Imprint: Springer, 2015.
Edición:1st ed. 2015.
Temas:
Mechanics, Applied.
Solids.
Building materials.
Mechanics.
Nanotechnology.
Ceramic materials.
Solid Mechanics.
Structural Materials.
Engineering Mechanics.
Classical Mechanics.
Ceramics.
Acceso en línea:Texto Completo
Tabla de Contenidos:
  • Continuum Damage Mechanics Fundamentals: Some Basic Issues of Isotropic and Anisotropic Continuum Damage Mechanics
  • Undamageable Materials and Damage Processes in Series and in Parallel
  • Use of Fabric Tensors in Continuum Damage Mechanics of Solids with Micro-cracks
  • Evolution of Fabric Tensors in Continuum Damage Mechanics of Solids with Micro-cracks: Studying the Effects of Length and Orientation
  • Damage for Disordered Materials: 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: Discrete Element Methods, Particle Models, and Fractal Theories
  • Two-Dimensional Discrete Damage Models: Lattice and Rational Models
  • Damage in Crystalline Metals and Alloys: Ductile Damage Behavior in Low-Cycle Fatigue for Polycrystalline Metallic Materials
  • 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
  • Numerical Applications in Damage-Induced Anisotropy in Low-Cycle Fatigue Modeling for Metals
  • Damage in Structures: Damage in Prestressed Concrete Structures due to Creep and Shrinkage of Concrete
  • Damage to Ship Structures Under Uncertainty: Evaluation and Prediction
  • Elasto-dynamic Damage Evaluation of Bridges
  • Materials Mechanical Characterizations and Structural Diagnoses by Inverse Analyses
  • Damage Mechanics in Electronic Packaging: Adhesion and Failure of Polymer-Metal Interfaces in Microelectronic Packaging
  • Damage Mechanics Unified Constitutive Modeling for Polymers
  • Thermodynamics Theory for Damage Evolution in Solids
  • Damage Mechanics in Metal Forming: Damage Prediction in Metal-Forming Process Modeling and Optimization: Simplified Approaches
  • Ductile Damage in Metal Forming: Advanced Macroscopic Modeling and Numerical Simulation
  • Ductile Failure Modeling: Stress Dependence, Non-locality and Damage to Fracture Transition
  • Micromechanical Models of Ductile Damage and Fracture
  • Micromechanical Polycrystalline Damage-Plasticity Modeling for Metal-Forming Processes
  • Damage Micromechanics of Composite Materials, and Coupled Elastoplastic Damage-Healing Mechanics of Granular Materials: Fiber Cracking and Elastoplastic Damage Behavior of Fiber-Reinforced Metal Matrix Composites
  • Micromechanical Elastoplastic Damage Modeling of Evolutionary Interfacial Arc Debonding for Fiber-Reinforced Composites
  • New Strain-Energy-Based Coupled Elastoplastic Damage-Healing Mechanics Accounting for Matric Suction Effect for Geomaterials
  • New Strain-Energy-Based Coupled Elastoplastic Two-Parameter Damage and Healing Models for Geomaterials
  • Particle-Cracking Modeling of Metal-Matrix Composites
  • Particle-Debonding Modeling of Metal-Matrix Composites
  • Damage Under Dynamic Loading: Anisotropic Damage for Extreme Dynamics
  • Plasticity Conditions and Failure Criteria for Quasi-brittle Materials
  • Experimental Damage Characterization: Evaluating Damage with Digital Image Correlation: A. Introductory Remarks and Detection of Physical Damage
  • Evaluating Damage with Digital Image Correlation: B. From Physical to Mechanical Damage
  • Evaluating Damage with Digital Image Correlation: C. Applications to Composite Materials
  • Micromechanics of Damage for Laminated Composites: Experimental Methods to Quantify Microdamage and Microstructure Anomalies in Fiber-Reinforced Polymer Composites: Overview
  • Modeling Deformation and Damage of Random Fiber Network (RFN) Materials
  • Predicting Damage Evolution in Composites with Explicit Representation of Discrete Damage Modes
  • Nuclear Damage Characterization: Irradiation Damage in Nuclear Power Plants
  • Recent Trends in Damage and Healing Mechanics: Healing, Super Healing, and Other Issues in Continuum Damage Mechanics
  • Thermodynamics of Continuum Damage Healing Mechanics
  • Continuum Damage-Healing Mechanics
  • Modeling of Nonlocal Damage Using the Phase Field Method.

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