攪拌摩擦焊接與處理(英文版)/材料科學研究與工程技術系列
內容大鋼
本書以作者多年在攪拌摩擦焊接與處理領域的知識儲備、經驗積淀和研究成果為基礎,結合井加入當前FSW/P技術發展水平,系統地總結了FSW/P的技術特點與應用方面的研究,定位自支撐攪拌摩擦焊、無焊嶷減薄攪拌摩擦焊和基於攬拌摩擦再製造等技術的研究進展,重點介紹了它們的技術發展、工藝參數、冶金特性和力學性能。書中還總結了特異性材料的FSW/P連接特性、組織調控和性能優化方法,概括了聚合物和聚合物基複合材料的攪拌摩擦焊、多功能複合材料的製備以及金屬和聚合物異種攪拌摩擦焊的研究現狀和發展趨勢。
作者介紹
黃永憲//謝聿銘//孟祥晨|責編:馬毓聰//宋曉翠
目錄
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
9.3 Grain refinement mechanisms of graphene nanoplatelet-reinforced aluminum composites
References
Chapter 10 Anti-corrosion aluminum matrix composites
10.1 Homogeneously dispersed graphene nanoplatelets as corrosion inhibitors
10.2 Heteroatom modification towards enhanced corrosion resistance
References
Chapter 11 SiC reinforced aluminum matrix composites via deformation- driven metallurgy
11.1 Effect of the SiC particle size on the strength-ductility synergy of the reinforced aluminum matrix composites
11.2 Nano-SiC particles reinforced aluminum matrix composites via optimized mass fraction
References
Abbreviations
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