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Preface 1 Fundamentals of Classical Plasticity 1£®1 Stress 1£®1£®1 The Concept of Stress Components 1£®1£®2 Description of the Stress State 1£®1£®2£®1 Stresses on an Arbitrary Inclined Plane 1£®1£®2£®2 Stress Components on an Oblique Plane 1£®1£®2£®3 Special Stresses 1£®1£®2£®4 Common Stress States 1£®1£®3 Stress Tensors and Deviatoric Stress Tensors 1£®1£®4 Mohr Stress Circles 1£®1£®4£®1 Mohr Circles for a Two-DimensionaI Stress System 1£®1£®4£®2 Mohr Circles for a Three-Dimensional Stress System 1£®1£®5 Equations of Force Equilibrium 1£®2 Strain 1£®2£®1 Nominal Strain and True Strain 1£®2£®2 Strain Components as Functions of Infinitesimal Displacements 1£®2£®3 The Maximum Shear Strains and the Octahedral Strains 1£®2£®4 Strain Rates and Strain Rate Tensors 1£®2£®5 Incompressibility and Chief Deformation Types 1£®3 Yield Criteria 1£®3£®1 The Concept of Yield Criterion 1£®3£®2 Tresca Yield Criterion 1£®3£®3 Mises Yield Criterion 1£®3£®4 Twin Shear Stress Yield Criterion 1£®3£®5 Yield Locus and Physical Concepts of Tresca£¬ Mises£¬ and Twin Shear Stress Yield Criteria 1£®3£®5£®1 Interpretation of Tresca Yield Criterion 1£®3£®5£®2 Interpretation of Twin Shear Stress Yield Criterion 1£®3£®5£®3 Interpretation of Mises Yield Criterion 1£®4 A General Yield Criterion 1£®4£®1 Representation of GeneraI Yield Criterion 1£®4£®2 Yield Surface and Physical Interpretation 1£®4£®3 Simplified Yield Criterion 1£®5 Classical Theory about Plastic Stress-Strain Relation 1£®5£®1 Early Perception of Plastic Stress Strain Relations 1£®5£®2 Concept of the Gradient-Based Plasticity and Its Relation with Mises Yield Criterion 1£®5£®2£®1 Concept of the Plastic Potential 1£®5£®2£®2 Physical Interpretation of the Plastic Potential 1£®5£®2£®3 Physical Interpretation of Mises Yield Function £¨Plastic Potential£© 1£®6 Effective Stress£¬ Effective Strain£¬ and Stress Type 1£®6£®1 Effective Stress 1£®6£®2 Effective Strain 1£®6£®3 Stress Type References 2 Experimental Research on Material Mechanical Properties under Uniaxial Tension 3 Experimental Research on Mechanical Properties of Materials under Non-Uniaxial Loading Condition 4 Yield Criteria of Different Materials 5 Plastic Constitutive Relations of Materials 6 Description of Material Hardenability with Different Models 7 Sequential Correspondence Law between Stress and Strain Components and Its Application in Plastic Deformation Process 8 Stress and Strain Analysis and Experimental Research on Typical Axisymmetric Plane Stress-Forming Process 9 Shell and Tube Hydroforming 10 Bulk Forming 11 Sheet Forming Index