Study on Dynamic Friction Process of Sweat Self-Lubricating Composite at Elevated Temperature Based on CA Method

Song Shan Yan; Zuo Min Liu

doi:10.4028/www.scientific.net/AMR.79-82.1735

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Study on Dynamic Friction Process of Sweat Self-Lubricating Composite at Elevated Temperature Based on CA Method
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 79-82Study on Dynamic Friction Process of Sweat...

Study on Dynamic Friction Process of Sweat Self-Lubricating Composite at Elevated Temperature Based on CA Method

Abstract:

In the paper, a three-dimensional model is developed with cellular automaton method based on a series of experiments and the self-lubricating mechanism analysis. The model is used to investigate the dynamic friction process of sweat self-lubricating composite during high temperature sliding. The sliding friction coefficient and the distribution of lubricant on the worn surface of the composite are calculated out by using the cellular automaton (CA) model. The agreement between the computing and experimental results shows the model developed in the paper can be effectively used to study the friction behaviors of the sweat self-lubricating composite at high temperature.

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Periodical:

Advanced Materials Research (Volumes 79-82)

Pages:

1735-1738

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.79-82.1735

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Online since:

August 2009

Authors:

Song Shan Yan, Zuo Min Liu

Keywords:

Cellular Automaton (CA), Dynamic Friction Process, Elevated Temperature, Sweat Self-Lubricating Composite

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References

[1] Liu Zuomin: Elevated temperature diffusion self-lubricating mechanisms of a novel cermet sinter with orderly micro- pores. Wear, (2007), 262: 600-606.

DOI: 10.1016/j.wear.2006.07.012

Google Scholar

[2] Wan Yanjun, Liu Zuomin: Study of tribological properties of high temperature self-lubricating ceramic with transfixing micro-pore. Tribology, (2006), 26(4): 348-352.

Google Scholar

[3] Zhang Yibing, Yan Songshan, Liu Zuomin: Study for the Heat-driving Mechanism of Self-lubricating Covered Model at Elevated Temperature. Journal of wuhan university of technology. (2006), 28(6): 20-23.

Google Scholar

[4] Hassan ZAHOUANI, François SIDOROFF. Rough surfaces and elasto-plastic contacts. C. R. Acad. Sci. Paris, t. 2, Série IV, (2001), pp.709-715.

DOI: 10.1016/s1296-2147(01)01213-6

Google Scholar

[5] HOU Zhenbing: Solids Heat Conduction. (Shanghai Science and Technology Press, Shanghai China 1984).

Google Scholar