Lubricant film flow and depletion characteristics at head/disk storage interface

doi:10.1088/1674-1056/25/12/124601

Abstract

The characteristics of lubricant film at head/disk interface (HDI) are essential to the stability of hard disk drives. In this study, the theoretical models of the lubricant flow and depletion are deduced based on Navier-Stokes (NS) and continuity equations. The air bearing pressure on the surface of the lubrication film is solved by the modified Reynolds equation based on Fukui and Kaneko (FK) model. Then the lubricant film deformations for a plane slider and double-track slider are obtained. The equation of lubricant film thickness is deduced with the consideration of van der Waals force, the air bearing pressure, the surface tension, and the external stresses. The lubricant depletion under heat source is simulated and the effects of different working conditions including initial thickness, flying height and the speed of the disk on lubricant depletion are discussed. The main factors that cause the lubricant flow and depletion are analyzed and the ways to reduce the film thickness deformation are proposed. The simulation results indicate that the shearing stress is the most important factor that causes the thickness deformation and other terms listed in the equation have little influence. The thickness deformation is dependent on the working parameter, and the thermal condition evaporation is the most important factor.

Keywords: lubricant film depletion deformation characteristics head/disk interface

Received: 05 May 2016
Revised: 04 August 2016
Accepted manuscript online:

PACS:	46.55.+d	(Tribology and mechanical contacts)
	47.15.gm	(Thin film flows)
	68.03.-g	(Gas-liquid and vacuum-liquid interfaces)

Fund:

Project supported by the National Natural Science Foundation of China (Grant No. 51275124).

Corresponding Authors: Hong-Rui Ao
E-mail: hongrui_ao@hit.edu.cn

Cite this article:

Hong-Rui Ao(敖宏瑞), Zhi-Ying Han(韩志英), Kai Zhang(张凯), Hong-Yuan Jiang(姜洪源) Lubricant film flow and depletion characteristics at head/disk storage interface 2016 Chin. Phys. B 25 124601

[1]	Wu A Q, Kubota Y, Klemmer T, et al. 2013 IEEE Trans. Magn. 49 779
[2]	Ji R, Dao T K L, Xu B X, et al. 2011 IEEE Trans. Magn. 47 1988
[3]	Watanabe T and Bogy D B 2002 IEEE Trans. Magn. 38 2138
[4]	Li X, Hu Y Z and Wang H 2005 Acta Phys. Sin. 54 3787 (in Chinese)
[5]	Guo Q, Izumisawa S, Phillips D M, et al. 2003 J. Appl. Phys. 93 8707
[6]	Jing H D, Zhang X J, Tian Y M, et al. 2015 Acta Phys. Sin. 64 168101 (in Chinese)
[7]	Ma Y, Liu B 2007 Appl. Phys. Lett. 90 143516
[8]	Shi B J, Ji J Dand Yang T Y 2011 Microsystem Technol. 17 1271
[9]	Matsuoka H, Oka K, Yamashita Y, et al. 2011 Microsystem Technol. 17 983
[10]	Kasai P H and Raman V 2012 Tribology Letters 48 367
[11]	Bhushan B and Tonder K 1989 J. Tribology 111 228
[12]	Fukui S and Kaneko R 1988 J. Tribology 110 253
[13]	Marchon B, Karis T, Dai Q, et al. 2003 IEEE Trans. Magn. 39 2447

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Lubricant film flow and depletion characteristics at head/disk storage interface

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