镁合金冶金基本原理 英文影印版 [加] 米罕班 O.P.,[德] 凯尔 U.肯纳,[土] A.阿斯兰 卡亚 编 2017年版
资料介绍
镁合金冶金基本原理 英文影印版
作者:[加] 米罕班 O.P.,[德] 凯尔 U.肯纳,[土] A.阿斯兰 卡亚 编
出版时间:2017年版
内容简介
《镁合金冶金基本原理(影印版)》介绍了镁合金冶金的基本理论和技术,主要包括:镁的物理冶金、镁合金的热力学性能、镁合金的沉淀析出过程、镁的合金化及镁合金设计、镁合金成形、镁合金腐蚀及表面处理等,重点介绍了镁合金及镁基复合材料在航空、汽车、医疗器械等领域的应用。
《镁合金冶金基本原理(影印版)》对镁合金熔炼及成形加工技术的研究和生产具有参考价值,适合冶金、材料加工等行业的工程技术人员使用,也可供高等院校相关专业的师生参考。
目录
Contributor contact details
1 Primary production of magnesium
1.1 Introduction
1.2 Raw materials and production methods
1.3 Chemistry of extraction of magnesium from raw material
1.4 Fused salt electrolysis
1.5 Impurity removal chemistry in thermal processing
1.6 Process equipment
1.7 Melting, refining and casting magnesium
1.8 Magnesium alloy powder
1.9 Future trends
1.10 Conclusion
1.11 References
2 Physical metallurgy of magnesium
2.1 Introduction
2.2 Crystal structure and its consequences
2.3 Plastic deformation behaviour of magnesium and its alloys
2.4 Critical resolved shear stress (CRSS), slip and twinning
2.5 Fatigue behaviour
2.6 Creep behaviour
2.7 Recrystallization and grain growth
2.8 Future trends
2.9 References
3 Thermodynamic properties of magnesium alloys
3.1 Introduction
3.2 Fundamentals of thermodynamics
3.3 Thermodynamic properties of Mg alloys and compounds
3.4 First-principles thermodynamics of Mg alloys and compounds
3.5 Future trends
3.6 Acknowledgements
3.7 References
4 Understanding precipitation processes in magnesium alloys
4.1 Introduction
4.2 Precipitation from supersaturated solid solution
4.3 Precipitation hardening magnesium based alloy systems
4.4 Role of precipitation hardening in the development of high strength magnesium alloys
4.5 Conclusions and future trends
4.6 Sources of further information and advice
4.7 References
5 Alloying behavior of magnesium and alloy design
5.1 Introduction
5.2 Alloy design: solid solution alloying of magnesium
5.3 Alloy design: compound formation in magnesium alloys
5.4 The effects of second phases on the mechanical behavior of magnesium
5.5 Alloying with surface-active elements
5.6 Alloying elements and their effects
5.7 Summary: magnesium alloy design to enhance properties
5.8 References
……
6 Forming of magnesium and its alloys
7 Corrosion and surface finishing of magnesium and its alloys
8 Applications: aerospace, automotive andother structural applications of magnesium
9 Applications: magnesium-based metal matrix composites (MMCs)
10 Applications: use of magnesium in medical applications
作者:[加] 米罕班 O.P.,[德] 凯尔 U.肯纳,[土] A.阿斯兰 卡亚 编
出版时间:2017年版
内容简介
《镁合金冶金基本原理(影印版)》介绍了镁合金冶金的基本理论和技术,主要包括:镁的物理冶金、镁合金的热力学性能、镁合金的沉淀析出过程、镁的合金化及镁合金设计、镁合金成形、镁合金腐蚀及表面处理等,重点介绍了镁合金及镁基复合材料在航空、汽车、医疗器械等领域的应用。
《镁合金冶金基本原理(影印版)》对镁合金熔炼及成形加工技术的研究和生产具有参考价值,适合冶金、材料加工等行业的工程技术人员使用,也可供高等院校相关专业的师生参考。
目录
Contributor contact details
1 Primary production of magnesium
1.1 Introduction
1.2 Raw materials and production methods
1.3 Chemistry of extraction of magnesium from raw material
1.4 Fused salt electrolysis
1.5 Impurity removal chemistry in thermal processing
1.6 Process equipment
1.7 Melting, refining and casting magnesium
1.8 Magnesium alloy powder
1.9 Future trends
1.10 Conclusion
1.11 References
2 Physical metallurgy of magnesium
2.1 Introduction
2.2 Crystal structure and its consequences
2.3 Plastic deformation behaviour of magnesium and its alloys
2.4 Critical resolved shear stress (CRSS), slip and twinning
2.5 Fatigue behaviour
2.6 Creep behaviour
2.7 Recrystallization and grain growth
2.8 Future trends
2.9 References
3 Thermodynamic properties of magnesium alloys
3.1 Introduction
3.2 Fundamentals of thermodynamics
3.3 Thermodynamic properties of Mg alloys and compounds
3.4 First-principles thermodynamics of Mg alloys and compounds
3.5 Future trends
3.6 Acknowledgements
3.7 References
4 Understanding precipitation processes in magnesium alloys
4.1 Introduction
4.2 Precipitation from supersaturated solid solution
4.3 Precipitation hardening magnesium based alloy systems
4.4 Role of precipitation hardening in the development of high strength magnesium alloys
4.5 Conclusions and future trends
4.6 Sources of further information and advice
4.7 References
5 Alloying behavior of magnesium and alloy design
5.1 Introduction
5.2 Alloy design: solid solution alloying of magnesium
5.3 Alloy design: compound formation in magnesium alloys
5.4 The effects of second phases on the mechanical behavior of magnesium
5.5 Alloying with surface-active elements
5.6 Alloying elements and their effects
5.7 Summary: magnesium alloy design to enhance properties
5.8 References
……
6 Forming of magnesium and its alloys
7 Corrosion and surface finishing of magnesium and its alloys
8 Applications: aerospace, automotive andother structural applications of magnesium
9 Applications: magnesium-based metal matrix composites (MMCs)
10 Applications: use of magnesium in medical applications
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