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Development of Material Surface Engineering to Reduce the Friction and Wear of the Piston Ring
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Abstract
The latest developments of material surface engineering to reduce the friction and wear of the piston ring in recent decade have been summarized. This paper analyzes the severe operating conditions of the piston ring in engine in detail. Based on the theoretical analysis, the essential technique requirements for piston ring wear resistant coatings are proposed. The state of research and application, the process features and furture development tendency of main material surface engineerings such as plasma spray, neckel-based plating and vapor deposition are investigated. The results show that material surface engineering will play more and more important role in the piston ring and other components in high performance engine in the near furture. Particularly the nickel-based plating and physical vapor deposition are more powerful and flexible in pratical application for the piston ring. Also it can be predicted that new multilayer coatings and ceramic composite coatings are expected to have great potential as wear resistant materials and to be an important approach direction in the field of piston ring wear resistant coatings.
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Citation
Shen, Q., "Development of Material Surface Engineering to Reduce the Friction and Wear of the Piston Ring," SAE Technical Paper 970821, 1997, https://doi.org/10.4271/970821.Also In
References
- Shoichi, Tribology on Reciprocating Internal Combustion Engines JSME International Journal 30 1987 266
- slone Ralph et al. Wear of piston Rings and Liners by Laboratory Simulation SAE Paper. 890146
- Yoshida Hideki Kusama Kazunori Sagawa Junichi Effects of Surface Treatments on Piston Ring Friction Force and Wear SAE Paper. 900589
- Barber G.C. Ludema K.C. The Break-in Stage of Cylinder-Ring Wear Wear 118 1987 57 75
- Jeng Yeau-Ren Friction and Lubrication Analysis of a Piston-Ring Rack SAE Paper. 9204492
- Yang Jin Y. Ferrographic Analysis of Wear Debris Generated in Locomotive Diesel Engines Wear 93 1984 23
- Funatani K. et al. Engine Performance Improvements, Automotive Engineering January 1995 15 20
- Lyubimov V.V. et al. Development and Testing of Multilayer Physically Vapour Deposited Coatings for Piston Rings Surface and Coatings Technology 52 1992 145 151
- Rastegar F. et al. Piston Ring Coatings for High Horsepower Diesel Engines Surface and Coatings Technology 61 1993 36 42
- Zhaohe Tong et al. A Fracture Model for Wear Mechanism in Plasma sprayed Ceramic Coating Materials Wear 155 1992 309 316