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RESEARCH PAPERS

Wear Debris Formation and Agglomeration

[+] Author and Article Information
S. Türker Oktay, Nam P. Suh

Department of Mechanical Engineering, Massachusetts Institute of Technology, Cambridge, MA 02139

J. Tribol 114(2), 379-393 (Apr 01, 1992) (15 pages) doi:10.1115/1.2920897 History: Received February 20, 1991; Revised June 01, 1991; Online June 05, 2008

Abstract

The hypothesis that one of the primary roles of an effective lubricant is to prevent wear particle agglomeration, thus reduce the plowing of the interfaces by the particles, and lower the frictional force, has been tested through a series of experiments and modeling. The friction coefficient, and the interfacial separation of the sliding surfaces due to entrapped wear particles, were measured on a number of sliding pairs in both dry and lubricated sliding. The results showed that the particle size, even during a single sliding test, did not remain constant but increased as sliding progressed. This increase in the wear particle size was found to be due not to the formation of larger wear particles but to the agglomeration of the small wear particles produced during sliding. The formation of large wear particle agglomerates caused an increase in the amount of plowing and often a concurrent increase in the friction coefficient. When one of the sliding surfaces was textured with undulations, no wear particle agglomeration was observed. The newly formed wear particles simply got entrapped in surface microgrooves and were immediately removed from the sliding interface before their subsequent growth by agglomeration. It was further shown that “good” lubricants prevented agglomeration, thus the friction coefficient remained more or less at the initial low value. Both the dry and lubricated sliding test results are presented and discussed in light of the analytical models based on the plastic deformation of the individual wear particles and the slip-line field analysis of the wear particle agglomerate.

Copyright © 1992 by The American Society of Mechanical Engineers
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