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Journal of Materials Engineering and Performance

Erschienen in:

01.11.2012

Wear and Life Characteristics of Microwave-Sintered Copper-Graphite Composite

verfasst von: K. Rajkumar, S. Aravindan, M. S. Kulkarni

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 11/2012

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Abstract

Copper-graphite composite is an important tribological material used in electrical sliding contact applications like electrical brushes in motors and generators. The electrical sliding contact experiences multiple stresses such as mechanical pressure and temperature. Traditional life tests under normal operating condition would be a time-consuming process due to the longer expected life of the composite. Accelerated wear testing was carried out to evaluate the life characteristics of the composite. This work focuses on evaluation of tribological performance of microwave-sintered copper-graphite composite using accelerated wear testing methodology using high temperature pin-on-disc tribometer. Microstructural studies of worn out surfaces were carried out using SEM with EDAX. Reliability and analysis on life characteristics were performed on the time-to-failure data using temperature-nonthermal-accelerated life-stress model. The obtained times-to-failure data from the accelerated wear testing was extrapolated to normal usage condition. Temperature and pressure are significantly affecting the wear performance. Self-lubricating action of graphite and improvement in wear resistance is helpful in extending the life of copper graphite composite. The life of the composite obtained through testing at mean and 99% reliability are 18,725 and 16,950 h, respectively.

Vorheriger Artikel Characterization of New Glass Coated Foam Glass Insulating Tiles by Standard Tests

Nächster Artikel Characterization of a CuAlBe Alloy with Different Cr Contents

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Titel: Wear and Life Characteristics of Microwave-Sintered Copper-Graphite Composite
verfasst von: K. Rajkumar
S. Aravindan
M. S. Kulkarni
Publikationsdatum: 01.11.2012
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 11/2012
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-012-0161-z

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