航空航天粉末材料及技术

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作　者：	彭文飞，莫里亚尔·亚历山大等著
出版社：	化学工业出版社
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标　签：	暂缺

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ISBN：	9787122423603	出版时间：	2023-04-01	包装：	平装
开本：	16开	页数：	211	字数：

内容简介

　　The objective of this book is to systematically describe the application of powder materials in aerospace engineering. It is intended to enable readers to have a deeper understanding of powder materials and their applications， as well as to provide ideas and cases for creating new powder materials and improving existing powder forming technology. The main contents of this book include basic materials for aerospace， basic principles of powder metallurgy， basic principles of powder metallurgy of nanomaterials， powder metallurgy structural materials， hot resisting materials and materials strong to high-temperature， composite materials， friction materials， special-purpose functional materials， new technologies in powder metallurgy， special applications of metal powders. The book serves as a reference for teachers， undergraduates， graduate students， scientific researchers and engineering technicians who are engaged in theoretical and technical research in powder metallurgy， material forming， additive manufacturing and other fields.

作者简介

　　彭文飞，副教授，博士后。主要从事运载工具（汽车、高铁、航空航天）金属与碳纤维零/构件轻量化成形制造的研究工作。主持大型项目4项，其中国家自然科学基金2项，国家政府间交流项目1项，高端外国专家项目1项，省部级项目5项，市厅级项目4项；作为主要成员参加国家973项目1项，国家自然科学基金4项；主持完成横向科研项目3项；共同撰写专著2部；以一作者或通讯作者发表 SCI/EI论文30余篇；获教育部技术发明二等奖1项，浙江省技术发明二等奖1项，中国机械科学技术奖三等奖1项。

图书目录

Chapter 1 Basic Materials for Aerospace Engineering 001
1.1 Basic Metal Materials Used in Aerospace Engineering 001
1.2 Approaches to Choosing Constructional Materials for Aircraft 003
1.3 Some Examples of Choosing Materials for Specific Plane Units 005
1.4 Role and Place of Materials in Aerospace Engineering 008

Chapter 2 Introduction to Powder Metallurgy 015
2.1 The Properties of Powders 017
2.1.1 Physical Properties 017
2.1.2 Chemical Properties 019
2.2 Production of Sintered Products 021
2.2.1 Powder Preparation 021
2.2.2 Powder Forming 022
2.2.3 Sintering 026
2.3 Additional Processing of Sintered Products 028

Chapter 3 Basic Principles of Powder Metallurgy of Nanomaterials 031
3.1 General Information 031
3.2 Methods of Obtaining Nanopowders 034
3.3 Size Effects in Nanoparticles 035
3.4 Consolidation of Bulk Nanomaterials 037
3.4.1 Pressing of Nanopowders 037
3.4.2 Sintering 041
3.5 Nano-Oriented Surface Treatment Technology 043

Chapter 4 Sintered Construction Materials 045
4.1 Aluminum Powder Alloys 045
4.2 Titanium Powder Alloys 051
4.3 Magnesium Powder Alloys 055
4.4 Beryllium Powder Alloys 056

Chapter 5 Hot Resisting Materials and Materials Strong to High-Temperature 059
5.1 Refractory Metals and Alloys 060
5.2 Superalloys 063
5.3 Dispersion-Strengthened Materials068
5.4 Metal Refractory Compounds (Intermetallic Compounds)074
5.5 Special Ceramic Materials with High-Temperature Strength 076

Chapter 6 Composite Materials 079
6.1 General Concepts about Composite Materials 079
6.2 Methods of Obtaining Composite Materials 081
6.3 Metal Constructional Composite Materials 082
6.4 Heat-Resistant Composite Materials 085

Chapter 7 Materials for Friction Joints 092
7.1 Introduction to Tribology 092
7.1.1 Basic Terms of Tribology 093
7.1.2 Some Examples of the Influence of Friction on the Operation of Mechanisms 096
7.2 Antifriction Powder Materials 098
7.2.1 Bearing Iron-Based Materials100
7.2.2 Copper Based Materials102
7.2.3 Metal-Polymeric Bearing Materials 104
7.2.4 Nickel-Based Materials 107
7.3 Frictional Powder Materials108
7.3.1 Copper Based Friction Materials 110
7.3.2 Iron-Based Friction Materials 110
7.3.3 Cermets for Aircraft Brakes 112
7.3.4 Composite Materials with Carbon and Ceramic Matrix 113

Chapter 8 Special-Purpose Functional Materials 117
8.1 Concept of Functional Materials, and Their Roles in Engineering 117
8.2 Heavy Alloys 118
8.3 Porous Permeable Materials120
8.3.1 Filters 120
8.3.2 Porous Ionizers 123
8.3.3 Sweating Materials 124
8.3.4 Self-Cooling Sweating Materials 126
8.3.5 Capillary Structures of Heat Pipes 128
8.3.6 Porous Electrodes for Fuel Cells 131
8.4 Stalant Materials 131
8.5 Powder Materials for Electrical and Radio Technical Purposes 134
8.5.1 Optical Ceramics 134
8.5.2 Radio Transparent Materials 140
8.5.3 Magnetic Materials 146

Chapter 9 New Technologies in Powder Metallurgy 150
9.1 Nanomaterials and Nanotechnology 150
9.2 Additive Technology 162
9.3 Severe Plastic Deformation of Sintered Billets 173
9.4 Self-Propagation High-Temperature Synthesis 176
9.5 Metal Injection Molding (Casting) 184

Chapter 10 Special Applications of Metal Powders 189
10.1 Powder Solders 189
10.2 Metal Fuel 191
10.3 Magnetic Fluid 198
10.4 Powders for Magnetic Abrasive Processing 201

Appendix 204

Reference 206