Title :
Effect of isotropic sub-micron crystallized texture of glass-ceramic disks on low glide, stiction, and CSS
Author :
Xuan, Jack ; Chen, Ga-Lane ; Nguyen, Thanh
Author_Institution :
Corner Peripherals, Milpitas, CA, USA
fDate :
11/1/1995 12:00:00 AM
Abstract :
Near contact recording requires smoother surfaces with ultra-low Ra. Thus, micro-texture features at asperity-level which affect the overall tribological performance should be described by more surface parameters and/or their combinations instead of only those roughness height-dependent parameters. Our studies on sub-micron crystallized glass-ceramic disks indicate that the glide height avalanche for isotropic surfaces decreases with reductions in most parameters related to asperity height and profile shape, but it varies inversely with asperity spacing-related parameters. With proper combination of profile shape and spacing features, low stiction in 1-rpm and CSS tests on low Ra glass-ceramic disks can be achieved over larger ranges of roughness and lubricant thickness compared to cross-hatch textured NiP/Al disks
Keywords :
atomic force microscopy; ceramics; glass; hard discs; lubrication; magnetic recording; surface texture; tribology; CSS tests; RPM stiction coefficient; asperity height; asperity spacing-related parameters; atomic force microscope; glass-ceramic disks; glide height avalanche; hard disk drives; isotropic submicron crystallized texture; low Ra disks; low glide; lubricant thickness; near contact recording; profile shape; roughness height-dependent parameters; stiction; surface parameters; tribological performance; Cascading style sheets; Crystallization; Glass; Performance evaluation; Rough surfaces; Shape; Surface roughness; Surface texture; Surface waves; Testing;
Journal_Title :
Magnetics, IEEE Transactions on
