Inconel alloys have been used as engineering materials in high temperature and high stress applications due to their excellent mechanical properties. Tribological performances of these alloys, however, have not been conducted extensively. This is because in tribological applications, these materials have not often been utilized in friction and wear-related applications, resulting in a deficiency in the characterization of their tribomechanical properties. In the present research, we investigate the mechanisms of tribological performance of two different Inconel alloys in terms of contact pressures and sliding speeds. We studied their frictional behavior. The wear data were plotted against the (PV parameter) in order to investigate the changes of surface properties and wear behaviors of the same under the influence of mechanical energy input. It was interesting to find that the wear mechanisms were influenced by the process of tribotesting. There are three competing wear mechanisms found, abrasion, adhesion, and oxidation. Each of those dominates the tribological performance under different conditions.
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April 2010
Research Papers
Wear Mode Comparison of High-Performance Inconel Alloys
Grant R. Fox,
Grant R. Fox
Department of Mechanical Engineering,
Texas A&M University
, College Station, TX 77843
Search for other works by this author on:
Hong Liang
Hong Liang
Department of Mechanical Engineering,
e-mail: hliang@tamu.edu
Texas A&M University
, College Station, TX 77843
Search for other works by this author on:
Grant R. Fox
Department of Mechanical Engineering,
Texas A&M University
, College Station, TX 77843
Hong Liang
Department of Mechanical Engineering,
Texas A&M University
, College Station, TX 77843e-mail: hliang@tamu.edu
J. Tribol. Apr 2010, 132(2): 021603 (6 pages)
Published Online: April 26, 2010
Article history
Received:
May 7, 2009
Revised:
January 26, 2010
Online:
April 26, 2010
Published:
April 26, 2010
Citation
Fox, G. R., and Liang, H. (April 26, 2010). "Wear Mode Comparison of High-Performance Inconel Alloys." ASME. J. Tribol. April 2010; 132(2): 021603. https://doi.org/10.1115/1.4001170
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