Title :
Lubricant Dynamics in the Sub-Nanometer Clearance Regime
Author :
Marchon, Bruno ; Dai, Qing ; Knigge, Bernhard ; Pit, Remmelt
Author_Institution :
San Jose Res. Center, San Jose
Abstract :
This paper reviews the present state of understanding of lubricant-slider interactions in a rigid disk drive. As slider flying heights are rapidly approaching the intrinsic limit of a disk topography (1-3 nm), it has become apparent that disk-slider clearance of less than a nanometer can be achieved, at least on a laboratory setup. We will discuss the implication of such low spacing on the lubricant film behavior, and provide general physical arguments that attempt to highlight lubricant attributes that are relevant under those clearance conditions.
Keywords :
disc drives; lubricants; lubrication; magnetic disc storage; disk topography; lubricant dynamics; lubricant-slider interaction; rigid disk drive; slider flying heights; sub-nanometer clearance regime; Coils; Disk drives; Helium; Laboratories; Lubricants; Lubrication; Magnetic heads; Surface topography; Tribology; Viscosity; Disk drive; lubrication; tribology;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2007.902972
