Abstract There are limited studies on the tribological properties of SiAlON-TiN composites. Therefore, in the present study, tribology tests were conducted on a number of αi/βi-SiAlON-TiN composites with different αi/βi-SiAlON… Click to show full abstract
Abstract There are limited studies on the tribological properties of SiAlON-TiN composites. Therefore, in the present study, tribology tests were conducted on a number of αi/βi-SiAlON-TiN composites with different αi/βi-SiAlON phase ratio and TiN content, fabricated with unique compositional design. The influence of αi/βi-SiAlON phase ratios, microstructure, mechanical properties and TiN content on friction and wear behavior was investigated and wear mechanisms were explained. Tribology tests were conducted on computer controlled tribometer under dry unlubricated ambient conditions with a linear reciprocating movement in a ball-on-disc sliding wear configuration and test parameters kept as constant. It was observed that TiN addition (17 wt.%) did not change the friction (CoF) of SiAlON and wear rate and wear volume were observed to increase. Wear mechanisms showed differences with αi:βi-SiAlON phase ratio. Fracture toughness had very pronounced effect on wear resistance.
               
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