Chapter 1 Basic Materials for Aerospace Engineering 1.1 Basic Metal Materials Used in Aerospace Engineering 1.2 Approaches to Choosing Constructional Materials for Aircraft 1.3 Some Examples of Choosing Materials for Specific Plane Units 1.4 Role and Place of Materials in Aerospace Engineering Chapter 2 Introduction to Powder Metallurgy 2.1 The Properties of Powders 2.1.1 Physical Properties 2.1.2 Chemical Properties 2.2 Production of Sintered Products 2.2.1 Powder Preparation 2.2.2 Powder Forming 2.2.3 Sintering 2.3 Additional Processing of Sintered Products Chapter 3 Basic Principles of Powder Metallurgy of Nanomaterials 3.1 General Information 3.2 Methods of Obtaining Nanopowders 3.3 Size Effects in Nanoparticles 3.4 Consolidation of Bulk Nanomaterials 3.4.1 Pressing of Nanopowders 3.4.2 Sintering 3.5 Nano-Oriented Surface Treatment Technology Chapter 4 Sintered Construction Materials 4.1 Aluminum Powder Alloys 4.2 Titanium Powder Alloys 4.3 Magnesium Powder Alloys 4.4 Beryllium Powder Alloys Chapter 5 Hot Resisting Materials and Materials Strong to High-Temperature 5.1 Refractory Metals and Alloys 5.2 Superalloys 5.3 Dispersion-Strengthened Materials 5.4 Metal Refractory Compounds (Intermetallic Compounds) 5.5 Special Ceramic Materials with High-Temperature Strength Chapter 6 Composite Materials 6.1 General Concepts about Composite Materials 6.2 Methods of Obtaining Composite Materials 6.3 Metal Constructional Composite Materials 6.4 Heat-Resistant Composite Materials Chapter 7 Materials for Friction Joints 7.1 Introduction to Tribology 7.1.1 Basic Terms of Tribology 7.1.2 Some Examples of the Influence of Friction on the Operation of Mechanisms 7.2 Antifriction Powder Materials 7.2.1 Bearing Iron-Based Materials 7.2.2 Copper Based Materials 7.2.3 Metal-Polymeric Bearing Materials 7.2.4 Nickel-Based Materials 7.3 Frictional Powder Materials 7.3.1 Copper Based Friction Materials 7.3.2 Iron-Based Friction Materials
7.3.3 Cermets for Aircraft Brakes 7.3.4 Composite Materials with Carbon and Ceramic Matrix Chapter 8 Special-Purpose Functional Materials 8.1 Concept of Functional Materials, and Their Roles in Engineering 8.2 Heavy Alloys 8.3 Porous Permeable Materials 8.3.1 Filters 8.3.2 Porous Ionizers 8.3.3 Sweating Materials 8.3.4 Self-Cooling Sweating Materials 8.3.5 Capillary Structures of Heat Pipes 8.3.6 Porous Electrodes for Fuel Cells 8.4 Stalant Materials 8.5 Powder Materials for Electrical and Radio Technical Purposes 8.5.1 Optical Ceramics 8.5.2 Radio Transparent Materials 8.5.3 Magnetic Materials Chapter 9 New Technologies in Powder Metallurgy 9.1 Nanomaterials and Nanotechnology 9.2 Additive Technology 9.3 Severe Plastic Deformation of Sintered Billets 9.4 Self-Propagation High-Temperature Synthesis 9.5 Metal Injection Molding (Casting) Chapter 10 Special Applications of Metal Powders 10.1 Powder Solders 10.2 Metal Fuel 10.3 Magnetic Fluid 10.4 Powders for Magnetic Abrasive Processing Appendix Reference