Технологія напилення покриттів (англ. мовою)
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1.6. Influence of gas-thermal spraying parameters on the process efficiency
1.7. Selecting the type, composition and thickness of the coating. Constructing the coating
1.8. Application of sublayers
1.9. Selection of methods and techniques of spraying
1.10. Main parts and components of equipment for which spraying of coatings is effective
1.11. Main organizational and technological objectives of the sprayed coatings production
Chapter 2. MATERIALS FOR COATINGS AND METHODS OF MATERIAL FEEDING TO THE SPRAYING ZONE
2.1. Powders used for gas-thermal spraying
2.1.1. Requirements for powders
2.1.2. Metal powders
2.1.3. Alloy powders
2.1.4. Powders of anoxic high-melting compounds
2.1.5. Oxide powders
2.1.6. Composite powders
2.2. Material feeding into the spraying zone via wires, rods, flux-cored wires and flexible powder cords
2.2.1. Wires
2.2.2. Rods
2.2.3. Flux-cored wires
2.2.4. Flexible powder cords
2.3. General guidelines for choosing the material for applying coatings with thermal spraying methods
Chapter 3. SURFACE PREPARATION TO SPRAYING
3.1. Cleaning and washing of products
3.2. Mechanical, jet-abrasive and other methods of preparation
3.3. Methods for evaluation of the parts surface preparation to thermal spraying
Chapter 4. EQUIPMENT AND TECHNOLOGY OF THE FLAME SPRAYING OF COATINGS
4.1. Flame spraying installations and spraying burners
4.2. Special features of equipment operation and safety requirements
4.3. Materials for flame spraying
4.4. Technological features of flame spraying. Process flow diagram of spraying
4.5. Selection of technological parameters of flame spraying and their impact on the process efficiency
4.6. Prospects of development of flame spraying of coatings
Chapter 5. EQUIPMENT AND TECHNOLOGY OF ELECTRIC-ARC SPRAYING OF COATINGS
5.1. Devices and equipment for electric-arc spraying of coatings
5.2. Techniques and technological features of electric-arc spraying of coatings
5.3. Electric-arc spraying of composite coatings with the use of powder materials
Chapter 6. EQUIPMENT AND TECHNOLOGY OF PLASMA SPRAYING OF COATINGS
6.1. Equipment for plasma spraying of coatings
6.2. Materials for plasma spraying
6.3. Techniques and technological features of plasma spraying
6.4. Process flow diagram of plasma spraying of coatings
6.5. Selection of the optimal mode of plasma spraying
6.5.1. Mathematical modeling of the process of plasma spraying
6.5.2. Experimental verification of adequacy of the generalized mathematical model
6.5.3. Computerized optimization of parameters of the plasma spraying mode
6.6. Impact of technological parameters of plasma spraying on the structure and properties of coatings
6.7. Fields of application and prospects of development of plasma spraying. Advantages and disadvantages of the method
Chapter 7. EQUIPMENT AND TECHNOLOGY OF DETONATION SPRAYING OF COATINGS
7.1. Installations for detonation spraying
7.2. Technological features of the detonation spraying techniques
7.3. Parameters of detonation spraying and their impact on the process efficiency
7.4. Fields of application, advantages, disadvantages and prospects of development of detonation spraying of coatings
Chapter 8. GAS DYNAMIC SPRAYING OF COATINGS
Chapter 9. EQUIPMENT AND TECHNOLOGY OF VACUUM CONDENSATION DEPOSITION OF COATINGS
9.1. Technological features of the vacuum vapor methods of coating deposition
9.2. Equipment for vacuum condensation deposition of coatings
9.3. Materials for vacuum condensation deposition of coatings
Chapter 10. PROCESSES OF ADDITIONAL TREATMENT OF COATINGS
10.1. Strengthening treatment of sprayed coatings. Residual stress relief
10.2. Pre-recrystallization heat treatment of sprayed coatings
10.3. Improving physical and mechanical properties of electric-arc and plasma coatings by means of electropulse treatment of the heterophase high-temperature jet
Chapter 11. PROPERTIES OF SPRAYED COATINGS, METHODS OF THEIR TESTING AND QUALITY CONTROL
11.1. Determining bond strength of coatings
11.2. Determining porosity and other properties of coatings
11.3. Properties of gas-thermal coatings as quality indicators
11.4. Special properties of sprayed coatings
11.5. Mechanical treatment of sprayed coatings
Chapter 12. OPTIMIZATION OF TECHNOLOGICAL PROCESSES
12.1. The concept of optimization
12.2. Modeling of technological processes
12.3. Methods of optimization of technological processes
Chapter 13. TYPICAL TECHNOLOGICAL PROCESSES OF COATING APPLICATION. DESIGNING STATIONS FOR SPRAYING OF COATINGS
13.1. Typical technological processes
13.2. Design of stations for spraying coatings
Chapter 14. PROSPECTS FOR DEVELOPMENT OF SPRAYING OF COATINGS
14.1. Challenges for development of process
14.2. Promising items and techniques under development
14.2.1. Nanostructured coatings based on oxide ceramics
14.2.2. Nanocomposite coatings based on cermets
14.2.3. Influence of the structural state of FeB-coatings on their properties
14.2.4. Properties of gas-thermal Al-Cu-Fe coatings containing a quasicrystalline phase
14.2.5. Increase in the efficiency of heat-shielding characteristics of a coating when a quasicrystalline alloy is introduced into its composition
14.2.6. Microplasma deposition of bioceramic coatings
14.2.7. Hybrid laser-arc spraying
References
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