书籍详情
搅拌摩擦焊接与处理
作者:黄永宪,谢聿铭,孟祥晨
出版社:哈尔滨工业大学出版社
出版时间:2023-06-01
ISBN:9787576705058
定价:¥98.00
内容简介
本书以作者多年在搅拌摩擦焊接与处理领域的知识储备、经验积淀和研究成果为基础,结合井加入当前FSW/P技术发展水平,系统地总结了FSW/P的技术特点与应用方面的研究,定位自支撑搅拌摩擦焊、无焊嶷减薄搅拌摩擦焊和基于揽拌摩擦再制造等技术的研究进展,重点介绍了它们的技术发展、工艺参数、冶金特性和力学性能。书中还总结了特异性材料的FSW/P连接特性、组织调控和性能优化方法,概括了聚合物和聚合物基复合材料的搅拌摩擦焊、多功能复合材料的制备以及金属和聚合物异种搅拌摩擦焊的研究现状和发展趋势。
作者简介
暂缺《搅拌摩擦焊接与处理》作者简介
目录
Chapter 1 Friction stir welding and processing
1.1 Friction stir welding
1.2 Friction stir processing
1.3 Deformation-driven metallurgy
References
Chapter 2 Self-supported friction stir welding
2.1 Introduction
2.2 Bobbin tool friction stir welding
2.3 Penetrating friction stir welding
2.4 Self-support friction stir welding
2.5 Plastic deformation analysis of SSFSW1 joint
2.6 Prospects
References
Chapter 3 Non-weld-thinning friction stir welding
3.1 Stationary shoulder friction stir welding
3.2 Additive friction stir welding
3.3 Zero-plunge-depth friction stir welding
References
Chapter 4 Friction stir-based remannfacturing
4.1 Background
4.2 Principle and advantages
4.3 Types of FSW defects
4.4 Repetitive friction stir remanufacturing
4.5 Additive friction stir remanufacturing
4.6 Prospects
References
Chapter 5 High depth-to-width ratio friction stir welding
5.1 Numerical design of high depth-to-width ratio friction stir welding
5.2 Joint formation mechanism of high depth-to-width ratio friction stir welding
5.3 Grain growth behavior of high depth-to-width ratio friction stir welding
References
Chapter 6 Entire-process simulation of friction stir welding
6.1 Experiments and simulation
6.2 Implementation of neural networks
References
Chapter 7 Surface modification via friction stir processing
7.1 Surface composite fabricated by direct friction stir processing
7.2 Cryogenic surface-grinding assisted friction stir processing
7.3 Arc surface-nitriding assisted friction stir processing
References
Chapter 8 Friction stir processed bulk materials
8.1 Microstructural evolution and mechanical properties of Mg-Zn-Y-Zr alloy during friction stir processing
8.2 Dynamic recrystallization and mechanical properties of friction stir processed Mg-Zn-Y-Zr alloys
8.3 Uhrafine-grained Mg-Zn-Y-Zr alloy with remarkable improvement in superplasticity
8.4 Enhanced strength and ductility of friction-stir-processed Mg-6Zn alloys via Y and Zr co-alloying
8.5 Strengthening and toughening mechanisms of CNTs/Mg-6Zn composites via friction stir processing
References
Chapter 9 Graphene nanoplatelet-reinforced aluminum matrix composites
9.1 Feasibility verification of deformation-driven metallurgy
9.2 Ameliorating strength-ductility efficiency of graphene nanoplatelet- reinforced aluminum composites
1.1 Friction stir welding
1.2 Friction stir processing
1.3 Deformation-driven metallurgy
References
Chapter 2 Self-supported friction stir welding
2.1 Introduction
2.2 Bobbin tool friction stir welding
2.3 Penetrating friction stir welding
2.4 Self-support friction stir welding
2.5 Plastic deformation analysis of SSFSW1 joint
2.6 Prospects
References
Chapter 3 Non-weld-thinning friction stir welding
3.1 Stationary shoulder friction stir welding
3.2 Additive friction stir welding
3.3 Zero-plunge-depth friction stir welding
References
Chapter 4 Friction stir-based remannfacturing
4.1 Background
4.2 Principle and advantages
4.3 Types of FSW defects
4.4 Repetitive friction stir remanufacturing
4.5 Additive friction stir remanufacturing
4.6 Prospects
References
Chapter 5 High depth-to-width ratio friction stir welding
5.1 Numerical design of high depth-to-width ratio friction stir welding
5.2 Joint formation mechanism of high depth-to-width ratio friction stir welding
5.3 Grain growth behavior of high depth-to-width ratio friction stir welding
References
Chapter 6 Entire-process simulation of friction stir welding
6.1 Experiments and simulation
6.2 Implementation of neural networks
References
Chapter 7 Surface modification via friction stir processing
7.1 Surface composite fabricated by direct friction stir processing
7.2 Cryogenic surface-grinding assisted friction stir processing
7.3 Arc surface-nitriding assisted friction stir processing
References
Chapter 8 Friction stir processed bulk materials
8.1 Microstructural evolution and mechanical properties of Mg-Zn-Y-Zr alloy during friction stir processing
8.2 Dynamic recrystallization and mechanical properties of friction stir processed Mg-Zn-Y-Zr alloys
8.3 Uhrafine-grained Mg-Zn-Y-Zr alloy with remarkable improvement in superplasticity
8.4 Enhanced strength and ductility of friction-stir-processed Mg-6Zn alloys via Y and Zr co-alloying
8.5 Strengthening and toughening mechanisms of CNTs/Mg-6Zn composites via friction stir processing
References
Chapter 9 Graphene nanoplatelet-reinforced aluminum matrix composites
9.1 Feasibility verification of deformation-driven metallurgy
9.2 Ameliorating strength-ductility efficiency of graphene nanoplatelet- reinforced aluminum composites
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