Title :
Analyses of Lubricant Deformation Caused by Gas Stresses and Surface Tension
Author :
Saeki, Fumihiro ; Fukui, Shigehisa ; Matsuoka, Hiroshige
Author_Institution :
Dept. of Design & Inf. Eng., Tottori Univ., Tottori, Japan
Abstract :
Surface deformations of thin lubricant films on solid surfaces were studied through numerical simulations of the long-wave equation, taking into account surface tension, applied gas stresses, and disjoining pressure. We focused on transient behaviors of three-dimensional deformations caused by nonuniform gas pressure, gas shear stress, and surface tension. The deformed surface shapes depend on distribution shapes of the nonuniform surface forces, and the constraint of lubricant mass conservation induces secondary deformations. Deformation in the vertical direction decelerates with time due to the suppression effect of the disjoining and Laplace pressures.
Keywords :
liquid films; lubricants; magnetic disc storage; numerical analysis; shear deformation; surface tension; Laplace pressure; gas shear stress; long-wave equation; lubricant mass conservation; nonuniform gas pressure; numerical simulation; surface deformations; surface tension; thin lubricant films; Design engineering; Equations; Gravity; Heat-assisted magnetic recording; Lubricants; Shape; Solids; Stress; Surface tension; Transient analysis; Gas stresses; long-wave equation; lubricant; surface tension;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2009.2029606
