Article ID Journal Published Year Pages File Type
829006 Materials & Design (1980-2015) 2014 11 Pages PDF
Abstract

•ZA-27 alloy is used as matrix material and reinforced with SiC and Gr particles.•Heat treatment was carried out for all specimen.•Dry sliding wear test was done on pin-on-disc apparatus by Taguchi technique.•ZA-27/9SiC–3Gr showed superior wear resistance over the base alloy.•Ceramic mixed mechanical layer on contact surface of composite was formed.

Dry sliding wear behavior of zinc based alloy and composite reinforced with SiCp (9 wt%) and Gr (3 wt%) fabricated by stir casting method was investigated. Heat treatment (HT) and aging of the specimen were carried out, followed by water quenching. Wear behavior was evaluated using pin on disc apparatus. Taguchi technique was used to estimate the parameters affecting the wear significantly. The effect of HT was that it reduced the microcracks, residual stresses and improved the distribution of microconstituents. The influence of various parameters like applied load, sliding speed and sliding distance on wear behavior was investigated by means and analysis of variance (ANOVA). Further, correlation between the parameters was determined by multiple linear regression equation for each response. It was observed that the applied load significantly influenced the wear volume loss (WVL), followed by sliding speed implying that increase in either applied load or sliding speed increases the WVL. Whereas for composites, sliding distance showed a negative influence on wear indicating that increase in sliding distance reduces WVL due to the presence of reinforcements. The wear mechanism of the worn out specimen was analyzed using scanning electron microscopy. The analysis shows that the formation and retention of ceramic mixed mechanical layer (CMML) plays a major role in the dry sliding wear resistance.

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Physical Sciences and Engineering Engineering Engineering (General)
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