全书的七章内容,深入系统地介绍了硫系固体润滑材料(膜层)的制备方法及工艺,微观表征与摩擦学性能考核,减摩机理与模型等,包含了作者的研究心得和对固体润滑材料的深入思考。书中大部分内容都是作者所在课题组的直接研究成果,许多成果都以SCI、EI论文的形式在国内外知名期刊上发表,论文总数接近50篇。
样章试读
目录
- Chapter 1 Solid Lubrication Materials
1.1 Overview of Solid Lubrication
1.1.1 Introduction
1.1.2 Adhesive Wear and Scuffing of Metals and Methods of Prevention
1.1.3 Solid Lubrication
1.2 Soft Metal
1.2.1 Crystal Structure
1.2.2 Physical and Chemical Properties
1.2.3 Lubrication Mechanism
1.3 Metal Compounds
1.3.1 FeS
1.3.2 MoS_2
1.3.3 WS_2
1.3.4 ZnS
1.4 Inorganic Solid Lubricant
1.4.1 Graphite
1.4.2 BN
1.5 Organic Solid Lubricant
1.5.1 Polytetrafluoroethylene
1.5.2 Polythene
1.5.3 Nylon
1.5.4 Polyformaldehyde
1.5.5 Phenol Formaldehyde Resin
1.5.6 Epoxide Resin
1.6 Conclusion
References
Chapter 2 Solid Lubrication FeS Film Prepared by Ion Sulfuration
2.1 The Microstructure of Solid FeS
2.1.1 Surface Morphologies of Solid FeS
2.1.2 Phase Structures of Solid FeS
2.1.3 TEM Morphologies of Solid FeS
2.1.4 Analysis of Electron Diffraction
2.2 The Formation of Iron Sulfuration Layer
2.2.1 Experimental Methods
2.2.2 Surface Morphologies of Sulfuration Layers
2.2.3 Composition on the Sulfurized Steel Surface
2.2.4 Phase Structure of Sulfide Layer at Different Sulfurizing Time
2.2.5 Formation Mechanism of Sulfurized Layer
2.3 Characterization of Ion Sulfurized Layer
2.3.1 Characterization of Sulfurized Layer on 1045 and 52100 Steels
2.3.2 Characterization of Sulfurized Layer on Four Kinds of Steels
2.4 Tribological Properties of Sulfurized Layers
2.4.1 Tribological Properties of Sulfurized Layers on 1045 and 52100 Steels
2.4.2 Tribological Properties of Sulfide Layer on Four Kinds of Steel
2.5 Influencing Factors of the Microstructures and Tribological Properties on Sulfurized Layers
2.5.1 Effect of the Substrate State on the Sulfide Layer on 1045 Steel
2.5.2 Effect of Environment Temperature on the Sulfurized Layer on 52100 Steel
2.5.3 Effect of Wear Conditions on the Tribological Behaviors of Sulfurized Layer on 52100 Steel
References
Chapter 3 FeS Solid Lubrication Film Prepared by a Two-step Method
3.1 Radio-frequency(RF)Sputtering+Sulfurizing Combined Treatment
3.1.1 RF Sputtering Technology
3.1.2 Process of Preparation
3.1.3 Microstructures
3.1.4 Tribological Properties
3.2 Shot-peening+Ion Sulfuration Combined Treatment
3.2.1 Preparation
3.2.2 Characterization
3.2.3 Tribological Properties of Sulfide Layer
3.3 Nitriding+Sulfurizing Combined Treatment
3.3.1 1045 Steel Nitriding+Sulfurizing Combined Treatment
3.3.2 Gray Cast-iron Nitriding+Sulfurizing Combined Treatment
3.4 Nitrocarburizing+Sulfurizing Combined Treatment
3.5 Thermal Spraying 3Cr13 Steel Coating+Sulfurizing Combined Treatment
3.5.1 Arc Spraying Technology
3.5.2 High-velocity Arc Spraying
3.5.3 Preparation
3.5.4 Microstructures
3.5.5 Tribological Properties
3.6 Thermal Spraying FeCrBSi+Sulfurizing Combined Treatment
3.6.1 Preparation
3.6.2 Microstructures
3.6.3 Tribological Properties
3.7 MIG(metal inert-gas)Welding+Sulfurizing Combined Treatment
3.7.1 MIG Welding Technology
3.7.2 Preparation
3.7.3 Structures
3.7.4 Tribological Properties
3.8 Mechanism of FeS Film Prepared by Different Methods
References
Chapter 4 FeS Solid Lubrication Layer Prepared by Other Methods
4.1 High-velocity Flame Sprayed FeS Coating
4.1.1 High-velocity Flame Spraying Technology
4.1.2 Preparation
4.1.3 Characterization
4.1.4 Tribological Properties of FeS Coating
4.1.5 Lubrication Mechanism of Sprayed FeS Coating
4.2 Plasma Sprayed FeS and FeS_2 Coatings
4.2.1 Plasma Spraying Technique
4.2.2 Preparation of FeS(FeS_2)Coating
4.2.3 Characterization of FeS(FeS_2)Coating
4.2.4 Tribological Properties of FeS(FeS_2)Coating
4.3 Plasma Sprayed Nano-FeS and FeS-SiC Composite Coating
4.3.1 Plasma Sprayed Nano-FeS Coating
4.3.2 Sprayed FeS-SiC Composite Coating
4.4 Comparison of the Tribological Properties of Ion Sulfurized Layer and Plasma Sprayed FeS Coating
4.4.1 Experimental Method
4.4.2 Microstructure and Tribological Properties
4.5 Sol-gel FeS Coating
4.5.1 Preparation
4.5.2 Characterization
4.5.3 Tribological Properties
4.6 FeS Film Prepared by S-ion Implantation
4.6.1 Ion Implantation Technology
4.6.2 Tribological Properties of Sulfur-implanted Steel
References
Chapter 5 Micron-nano MoS_2 Solid Lubrication Film
5.1 MoS_2 Film
5.1.1 MoS_22 Sputtering Film
5.1.2 MoS_2 Film Prepared by Two-step Method
5.1.3 Thermal Spraying MoS_2 Film
5.1.4 Bonded MoS_2 Film
5.1.5 Inorganic Fullerene-like Nano MoS_2 Film
5.2 MoS_2/metal Co-deposition
5.2.1 MoS_2/Ni Composite Film
5.2.2 MoS_2/Ti Composite Film
5.2.3 MoS_2/Au Co-sputtered Film
5.3 MoS_2/Metal Compound Composite Film
5.3.1 MoS_2/TiN Composite Film
5.3.2 MoS_2/Pb_2O_3 Composite Film
5.3.3 MoS_2/LaF_3 Composite Film
5.3.4 MoS_2/FeS Multilayer Film
5.4 MoS2/graphite Sputtered Coating
References
Chapter 6 Micron-nano WS_2 Solid Lubrication Film
6.1 WS_2 Film
6.1.1 Characterizations of the Synthetic WS_2 Film
6.1.2 Tribological Properties of the Synthetic WS_2 Film
6.2 WS_2/Ag Composite Film
6.2.1 Structures of WS_2/Ag Composite Film
6.2.2 Tribological Properties of the WS_2/Ag Composite Film
6.3 WS_2/MoS_2 Multilayer Film
6.3.1 WS_2/MoS_2 Co-sputtered Film
6.3.2 WS_2/MoS_2 Multilayer Film Prepared by Combined Treatment
6.4 WS_2/CaF_2 Composite Coating
6.5 Ni-P-(IF-WS_2)Composite Film
References
Chapter 7 Micron-nano ZnS Solid Lubrication Film
7.1 ZnS Film Prepared by High Velocity Arc Spraying+Sulfurizing Treatment
7.1.1 Preparation
7.1.2 Characterizations
7.1.3 Tribological Properties
7.1.4 Lubrication Mechanisms of the Zn/ZnS Composite Layer
7.2 ZnS Film Prepared by Nano-brush Plating+Sulfurizing Treatment
7.2.1 Preparation
7.2.2 Morphologies
7.2.3 Friction Coefficient
7.2.4 Worn Morphologies
7.2.5 Energy Spectrum Analysis
7.3 Conclusion
Index
京公网安备 11010102004214号