吉林大学《材料科学与工程基础》chapter 8.pptVIP

Chapter 8 Deformation and Strengthening mechanism Chapter 8Deformation and Strengthening mechanism 第八章 (固体材料的)变形和强化机制 Chapter 8Deformation and Strengthening mechanism 第八章 (固体材料的)变形和强化机制 Chapter 8Deformation and Strengthening mechanism 第八章 (固体材料的)变形和强化机制 材料科学与工程(MSE)的整体概念材料科学基础的内容 Composition Synthesis 8.1 INTRODUCTION Deformation: Plastic deformation Elastic deformation 8-A DEFORMATION MECHANISMS FOR METALS 8.2 HISTORICAL theoretical strengths of perfect crystals 8-A DEFORMATION MECHANISMS FOR METALS 位错模型来源于人们对塑性变形抗力的探索 1926年Frank利用理想晶体模型提出晶体理论强度模型,但是远远高于实际材料的强度 1934年G.I.Taylor、M.Polanyi、E.Orowan三人几乎同时提出了晶体中位错的概念 1939年Burgers提出柏氏矢量来表征位错特性，同时提出螺型位错模型 1947年A.H.Corttrell用位错和溶质原子交互作用解释了低碳钢的屈服现象 1950年Frank、Read同时提出了位错增殖机制（F-R位错源） 1950年人们用透射电子显微镜观察到了位错的存在、运动、增殖和消亡等现象。至此位错理论得到广泛承认。 8-A DEFORMATION MECHANISMS FOR METALS 8.3 BASIC CONCEPTS OF DISLOCATIONS 8-A DEFORMATION MECHANISMS FOR METALS 8.3 BASIC CONCEPTS OF DISLOCATIONS 8-A DEFORMATION MECHANISMS FOR METALS 8.3 BASIC CONCEPTS OF DISLOCATIONS 8-A DEFORMATION MECHANISMS FOR METALS 8.4 CHARACTERISTICS OF DISLOCATIONS 8-A DEFORMATION MECHANISMS FOR METALS 8.4 CHARACTERISTICS OF DISLOCATIONS 位错的特征量——柏氏矢量 刃型位错: Edge Dislocation 螺型位错: Screw Dislocation 8-A DEFORMATION MECHANISMS FOR METALS 8.5 SLIP SYSTEMS（滑移系） The combination of a crystallographic plane and, within that plane, a crystallographic direction along which slip (i.e., dislocation motion) occurs. 位错滑移中的增殖 F-R 增殖模型 滑移和变形的过程 示意图 8-A DEFORMATION MECHANISMS FOR METALS 8.7 PLASTIC DEFORMATION OF POLYCRYSTALLINE METALS 8-B MECHANISMS OF STRENGTHENING IN METALS 8.9 STRENGTHENING BY GRAIN SIZE REDUCTION 8-B MECHANISMS OF STRENGTHENING IN METALS 8.9 STRENGTHENING BY GRAIN SIZE REDUCTION 8-B MECHANISMS OF STRENGTHENING IN METALS 8.9 STRENGTHENING BY GRAIN SIZE REDUCTION 8-B MECHANISMS OF STRENGTHENING IN METALS 8.9 STRENGTHENING BY GRAIN SIZE REDUCTION 8-B MECHANISMS OF STRENGTHENING IN METALS 8.10 SOLID-SOLUTION STRENGTHENING 8-B MECHANISMS OF