Wear of Silicon Carbide in Sliding Contact with Lubricated Thin-Film Rigid Disk

Abstract

Silicon carbide (SiC) is a potential ceramic material for recording heads, yet its tribological performance against lubricated thin-film rigid disks is not fully known. Square pins with a 100 mm radius spherical surface were made from hot pressed SiC, chemical vapor deposited (CVD) SiC, and Al2O3TiC, and tested with lubricated thin-film disks. The pin-on-disk tests showed that the region of contact on the spherical surface of the SiC and CVD-SiC pins wears away to form a circular wear plateau with smears in and around the plateau. The wear plateau is formed rapidly in the first 1000 drag revolutions and then very gradually grows in size with further revolutions. Analysis of the smears showed that a large fraction of the smears contained SiO2 which had been oxidized from SiC due to high temperatures generated at the pin surface in contact with the disk. In contrast, tests with Al2O3. TiC pins did not show any formation of a wear plateau on the pins. Presented as a Society of Tribologists and Lubrication En...