Title :
Unloaded slider vibrations excited by air flow between slider and rotating disk
Author :
Jeong, T.G. ; Bogy, D.B.
Author_Institution :
Dept. of Mech. Eng., California Univ., Berkeley, CA, USA
fDate :
9/1/1992 12:00:00 AM
Abstract :
The authors investigate a severe flexure vibration which was observed in a previous dynamic load-unload experiment. The flexure vibration appears in both pitch and roll measurements. The frequency of this vibration is about 400 Hz, regardless of the disk rotation speed, and its amplitude becomes relatively large when the initial slider-disk spacing is between 50-100 μm. In order to understand the mechanism of this flexure vibration, the authors investigate the motion of a slider with an emphasis on the flexure dynamics. They use a laser Doppler vibrometer to measure the slider´s motion at various distances from the rotating disk, and compare the results with a finite-element calculation. It is found that the first mode of flexure vibration is a pure roll motion, and its amplitude is usually smaller than those of the second and third modes. The second mode is a diagonal motion that is closer to roll and the third mode is a pitch motion
Keywords :
finite element analysis; hard discs; magnetic heads; measurement by laser beam; vibration measurement; vibrations; 400 Hz; air flow; diagonal motion; disk rotation speed; dynamic load-unload experiment; finite-element calculation; flexure dynamics; flexure vibration; laser Doppler vibrometer; pitch motion; roll motion; rotating disk; slider-disk spacing; unloaded slider vibrations; vibration frequency; Finite element methods; Fluid flow measurement; Frequency; Laboratories; Laser modes; Mechanical engineering; Motion measurement; Rotation measurement; Vibration measurement; Vibrometers;
Journal_Title :
Magnetics, IEEE Transactions on
