05503nam 2200697Ia 450 991078456190332120200520144314.01-281-04671-X97866110467120-08-053363-9(CKB)1000000000363874(EBL)313904(OCoLC)647656439(SSID)ssj0000298201(PQKBManifestationID)11947392(PQKBTitleCode)TC0000298201(PQKBWorkID)10344063(PQKB)10287516(MiAaPQ)EBC313904(Au-PeEL)EBL313904(CaPaEBR)ebr10191638(CaONFJC)MIL104671(OCoLC)935264301(PPN)260920835(EXLCZ)99100000000036387420010430d2001 uy 0engur|n|---|||||txtccrHandbook of materials behavior modelsVolume 1Deformations of materials[electronic resource] /editor Jean LemaitreSan Diego, CA Academicc20011 online resource (1231 p.)Description based upon print version of record.0-12-443341-3 Includes bibliographical references and index.Front Cover; Handbook of Materials Behavior Models; Copyright Page; Contents; Chapter 1. Background on mechanics of materials; 1.1 Background on modeling; 1.2 Materials and process selection; 1.3 Size effect on structural strength; Chapter 2. Elasticity, viscoelasticity; 2.1 Introduction to elasticity and viscoelasticity; 2.2 Background on nonlinear elasticity; 2.3 Elasticity of porous materials; 2.4 Elastomer models; 2.5 Background on viscoelasticity; 2.6 A nonlinear viscoelastic model based on fluctuating modes; 2.7 Linear viscoelasticity with damage; Chapter 3. Yield limit3.1 Introduction to yield limits3.2 Background on isotropic criteria; 3.3 Yield loci based on crystallographic texture; 3.4 Anisotropic yield conditions; 3.5 Distortional model of plastic hardening; 3.6 A generalized limit criterion with application to strength, yielding, and damage of isotropic materials; 3.7 Yield conditions in beams, plates, and shells; Chapter 4. Plasticity; 4.1 Introduction to plasticity; 4.2 Elastoplasticity of metallic polycrystals by the self-consistent model; 4.3 Anisotropic elastoplastic model based on crystallographic texture4.4 Cyclic plasticity model with nonlinear isotropic and kinematic hardening: No LIKH model4.5 Multisurface hardening model for monotonic and cyclic response of metals; 4.6 Kinematic hardening rule with critical state of dynamic recovery; 4.7 Kinematic hardening rule for biaxial ratcheting; 4.8 Plasticity in large deformations; 4.9 Plasticity of polymers; 4.10 Rational phenomenology in dynamic plasticity; 4.11 Conditions for localization in plasticity and rate-independent materials; 4.12 An introduction to gradient plasticity; Chapter 5. Viscoplasticity; 5.1 Introduction to viscoplasticity5.2 A phenomenological anisotropic creep model for cubic single crystals5.3 Crystalline viscoplasticity applied to single crystals; 5.4 Averaging of viscoplastic polycrystalline materials with the tangent self-consistent model; 5.5 Fraction models for inelastic deformation; 5.6 Inelastic compressible and incompressible, isotropic, small-strain viscoplasticity theory based on overstress (VBO); 5.7 An outline of the Bodner-Partom (BP) unified constitutive equations for elastic-viscoplastic behavior; 5.8 Unified model of cyclic viscoplasticity based on the nonlinear kinematic hardening rule5.9 A model of nonproportional cyclic viscoplasticity5.10 Rate-dependent elastoplastic constitutive relations; 5.11 Physically based rate- and temperature-dependent constitutive models for metals; 5.12 Elastic-viscoplastic deformation of polymers; Chapter 6. Continuous damage; 6.1 Introduction to continuous damage; 6.2 Damage-equivalent stress-fracture criterion; 6.3 Micromechanically inspired continuous models of brittle damage; 6.4 Anisotropic damage; 6.5 Modified Gurson model; 6.6 The Rousselier model for porous metal plasticity and ductile fracture; 6.7 Model of anisotropic creep damage6.8 Multiaxial fatigue damage criteriaThis first of a kind reference/handbook deals with nonlinear models and properties of material. In the study the behavior of materials' phenomena no unique laws exist. Therefore, researchers often turn to models to determine the properties of materials. This will be the first book to bring together such a comprehensive collection of these models.The Handbook deals with all solid materials, and is organized first by phenomena. Most of the materials models presented in an applications-oriented fashion, less descriptive and more practitioner-geared, making it useful in the daily wMaterialsMaterialsSimulation methodsMaterialsHandbooks, manuals, etcMaterials.MaterialsSimulation methods.Materials620.1/1/015118 21620.11015118620.112Lemaître J(Jean),1934-29305MiAaPQMiAaPQMiAaPQBOOK9910784561903321Handbook of materials behavior models3708333UNINA