●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 Spe 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......
內容簡介
本書是搶先發售由有工程應用背景的教授與專家共同撰寫的關於工程塑性理論及其在金屬成形中的應用的專著。全書突出基本概念與應用,涵蓋了作者們多年的研究成果。章重點介紹了幾種屈服準則,包括作者提出的廣義屈服準則,明確了應力偏張量與塑性變形的本質聯繫;第2章列出航天、航空及汽車領域新近研發的眾多材料的單向拉伸力學特性;第3章介紹了驗證屈服準則與塑性應力應變關繫的薄管和薄板實驗;第4章介紹了各向異性材料的屈服特性和靜水應力與應力狀態類型對屈服的影響;第5章介紹了塑性應變增量梯度理論的一般性定理及等效強化狀態塑性變形中出現的“軟化”現像;第6章介紹了後續塑性變形的幾種強化特性;第7章闡述了由Levy-Mises應力應變關繫增量理論導出的應力應變順序對應規律及其實驗驗證;第8章給出了管材拉撥、縮口、擴口及錐面脹管等工序應力應變分析統一解;第9章為液壓成形;0章為體積成形;1章為板料成形。本書不僅為讀者提供......
