Journal
SILICON
Volume 14, Issue 18, Pages 12235-12250Publisher
SPRINGER
DOI: 10.1007/s12633-022-01908-z
Keywords
Sliding wear; Metal-matrix composite; Graphite; Wear testing
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The current study focuses on investigating the tribological behavior of Al 6061 based nanocomposites and Al 6061/SiC/Graphite based hybrid nanocomposites. Dry sliding wear tests were conducted to analyze the wear coefficients and mechanisms involved. The results showed that the sample with 2 wt.% silicon carbide and 2 wt.% graphite exhibited the lowest depth of penetration and smaller wear debris particles compared to others.
The current study focuses on Al 6061 based nanocomposites with silicon carbide reinforcement i.e. AA6061 - x wt.% SiCp (x = 0, 0.5, 1, 1.5, and 2) and Al 6061/SiC/Graphite based hybrid nanocomposites i.e. AA6061/2 wt.% SiCp/y wt.% graphite (y = 0.5, 1, 1.5, 2 and 3). Ultrasonic assisted stir casting is selected as the method of fabrication owing to its benefits. To investigate the tribological behavior of nanocomposites and hybrid nanocomposites, all the samples are subjected to a dry sliding wear test on a pin on disc testing apparatus. Wear coefficients are calculated based on the experimental data. Worn surface analysis is conducted along with wear debris analysis for deciphering the wear mechanisms involved. Wear coefficients of all the composites get magnified with an increase in sliding distance and sliding velocity. Worn surface analysis has reported that the sample with 2 wt.% silicon carbide and 2 wt.% graphite has experienced the lowest depth of penetration and also resulted in the smaller wear debris particles among all.
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