Title :
Tribological behavior of thin film rigid disks with regular dot array texture on carbon overcoats
Author :
Tanaka, Hideaki ; Ishikawa, Fuminori ; Gomi, Kenichi ; Yamaguchi, Nobuya ; Miyake, Yoshihiko
Author_Institution :
Data Storage & Retrieval Syst. Div., Hitachi Ltd., Kanagawa, Japan
fDate :
11/1/1994 12:00:00 AM
Abstract :
Frictional behavior and contact start/stop (CSS) performance are described for thin film rigid disks with regular dot array texture on carbon overcoats formed by a photo-lithography technique. Both initial friction and friction buildup in CSS tests become smaller with a decrease in apparent area of contact between the slider and disk, while wear depth of carbon overcoats in tests increases. These phenomena agree well with those of concentric circular texture formed by similar process. These results show that the apparent area of contact is the dominant factor for friction and wear, nearly independent of texture arrangement. When the hill height is insufficient, a sudden increase in friction may occur during a CSS test due to wear of the hills. To improve tribological durability, the optimum texture profile should be designed by taking account of the wear rate of overcoats during the operating conditions of magnetic disk drives
Keywords :
carbon; hard discs; magnetic thin film devices; sliding friction; surface texture; surface topography; wear; C; carbon overcoats; contact area; contact start/stop performance; frictional behavior; magnetic disk drives; optimum texture profile; overcoat wear rate; photolithographic formation; regular dot array texture; slider; thin film rigid disks; tribological behavior; tribological durability; wear depth; Cascading style sheets; Disk drives; Friction; Kinetic theory; Magnetic heads; Memory; Substrates; Testing; Transistors; US Department of Transportation;
Journal_Title :
Magnetics, IEEE Transactions on
