Friction and Wear Behavior of Structural Ceramics Sliding against Bearing Steel under Vacuum Condition

The friction and wear behavior of Si3N4, SiC and ZrO2 sliding against M50 bearing steel under vacuum condition at various applied load were investigated. The results showed that the properties of different ceramic materials cause the difference in wear behaviors. The coefficient of friction was lowe...

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Veröffentlicht in:	Key engineering materials 2011-01, Vol.474-476 (SUPPL.2), p.973-978
Hauptverfasser:	Gu, Le, Peng, Bo, Wang, Li Qin, Tong, Yong Xing
Format:	Artikel
Sprache:	eng
Schlagworte:	Abrasion Abrasion resistance Bearing steels Carbon Ceramics Friction Silicon carbide Wear
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container_end_page	978
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creator	Gu, Le Peng, Bo Wang, Li Qin Tong, Yong Xing
description	The friction and wear behavior of Si3N4, SiC and ZrO2 sliding against M50 bearing steel under vacuum condition at various applied load were investigated. The results showed that the properties of different ceramic materials cause the difference in wear behaviors. The coefficient of friction was lowest in SiC and M50 bearing steel couple than other cases for graphitic carbon replaced carbidic carbon at the worn layer of SiC. The specific wear rate of ZrO2 was highest and the lowest was Si3N4. The ceramic ball materials have transferred on M50 bearing steel surfaces and tribofilm consistently formed on the ceramic balls wearing surfaces. Dominant wear behaviors for three structural ceramics were adhesion abrasion, plastic deformation and brittle fracture. The couple with Si3N4 and M50 showed the best operating conditions for friction and wear resistance under higher applied load.
doi_str_mv	10.4028/www.scientific.net/KEM.474-476.973
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The results showed that the properties of different ceramic materials cause the difference in wear behaviors. The coefficient of friction was lowest in SiC and M50 bearing steel couple than other cases for graphitic carbon replaced carbidic carbon at the worn layer of SiC. The specific wear rate of ZrO2 was highest and the lowest was Si3N4. The ceramic ball materials have transferred on M50 bearing steel surfaces and tribofilm consistently formed on the ceramic balls wearing surfaces. Dominant wear behaviors for three structural ceramics were adhesion abrasion, plastic deformation and brittle fracture. 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subjects	Abrasion Abrasion resistance Bearing steels Carbon Ceramics Friction Silicon carbide Wear
title	Friction and Wear Behavior of Structural Ceramics Sliding against Bearing Steel under Vacuum Condition
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