Inelastic Deformation Of Compo

Inelastic Deformation Of Compo

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Inelastic Deformation Of Compo

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Beschreibung

Details

Einband

Gebundene Ausgabe

Erscheinungsdatum

01.01.1991

Herausgeber

George J. Dvorak

Verlag

Springer

Beschreibung

Details

Einband

Gebundene Ausgabe

Erscheinungsdatum

01.01.1991

Herausgeber

George J. Dvorak

Verlag

Springer

Seitenzahl

779

Gewicht

1293 g

Sprache

Englisch

ISBN

978-0-387-97458-3

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  • Inelastic Deformation Of Compo
  • Session 1. Interfaces I.- Composite Materials with Interphase: Thermoelastic and Inelastic Effects.- Effect of a Viscoelastic Interfacial Zone on the Mechanical Behavior and Failure of Fiber-Reinforced Composites.- Measurement of Strength of Thin Film Interfaces by Laser Spallation Experiment.- Session 2. Interfaces II.- On a Correspondence Between Mechanical and Thermal Fields in Composites with Slipping Interfaces.- Micromechanical Modelling of Fibre Debonding in a Metal Reinforced by Short Fibres.- Session 3. Damage.- Fiber Stress Enhancement Due to Initial Matrix Cracking.- Fracture Toughness Enhancement Due to Particle Transformation.- Cracks at the Extremities of Cylindrical Fibre Inclusions.- Session 4. Inelastic Behavior I.- Bounds for the Creep Behavior of Poly crystalline Materials.- Simplifications in the Behavior of Viscoelastic Composites with Growing Damage.- The Effective Properties of Brittle/Ductile Incompressible Composites.- Session 5. Inelastic Behavior II.- Compressive Failure of Fibre Composites Due to Microbuckling.- A Critical Evaluation for a Class of Micro-Mechanics Models.- Experiments and Modeling in Plasticity of Fibrous Composites.- Session 6. Computational Methods.- The Effect of Superposed Hydrostatic Stress on the Mechanical Response of Metal-Matrix Composites.- Micromechanical Modeling of Plasticity Texture Evolution in Semi-Crystalline Polymers.- A Unified Formulation of Micromechanics Models of Fiber-Reinforced Composites.- Session 7. Inelastic Behavior III.- A Micromechanical Composite Yield Model Accounting for Residual Stresses.- The Effects of Thermal, Plastic and Elastic Stress Concentrations on the Overall Behavior of Metal Matrix Composites.- Session 8. Inelastic Behavior IV.- Residual Stresses in Fibrous Metal Matrix Composites: A Thermoviscoplastic Analysis.- Elasto-Plastic Analysis for Cracked Fibrous Composites under Axial and Thermal Loads.- Incremental Elastoplastic Behavior of Metal Matrix Composites Based on Averaging Schemes.- Session 9. Inelastic Behavior V.- Global and Internal Time Dependent Behaviour of Polymer Matrix Composites.- A Local-Field Theory for the Overall Creep of Fiber-Reinforced Metal Matrix Composites.- The Overall Behaviour of a Nonlinear Fibre Reinforced Composite.- Session 10. Damage and Failure.- A Continuum Model for Damage Evolution in Laminated Composites.- Lower and Upper Bound Estimates for the Macroscopic Strength Criterion of Fiber Composite Materials.- Static and Fatigue Biaxial Testing of Fiber Composites Using Thin Walled Tubular Specimens.- Session 11. Fracture.- Mesomodeling of Damage for Laminate Composites: Application to Delamination.- Constitutive Relations of Hybrid Fiber Reinforced Plastics of GFRP/CFRP and GFRP/AFRP under Combined Stress State.- Predictions of the Critical Strain for Matrix Cracking of Ceramic Matrix Composites.- Session 12. Inelastic Behavior VI.- Shear Characterisation and Inelastic Torsion of Fibre-Reinforced Materials.- Inelastic Deformation and Fatigue Damage of Composites under Multiaxial Loading.- A Hybrid Model for Nonlinear Characterization of Composite Materials.- Session 13. Inelastic Behavior VII.- Admissible Deformations in Diaphragm Forming of Continuous Fibre Reinforced Thermoplastics.- Viscoelastic Creep Post Buckling Behavior of AS4/J1 Thermoplastic-Matrix Composite Laminates.- Asymmetrical Growth of Edge Delaminations in CFRP Tensile Specimens.- Matrix Mean-Field and Local-Field Approaches in the Analysis of Metal Matrix Composites.