The vibration characteristics of a thermal fly-height control (TFC) head slider in the proximity and asperity contact regimes attract much attention, because the head–disk spacing (HDS) must be less than 1 nm in order to increase the recording density in hard disk drives. This paper presents a numerical analysis of the microwaviness (MW)-excited vibrations in the flying head slider during the touchdown (TD) process. We first formulate the total force applied to the TFC head slider as a function of the HDS, based on rough-surface adhesion contact models and an air-bearing force model. Then, the MW-excited vibrations of a single-degree-of-freedom (DOF) slider model at TD are simulated by the Runge–Kutta method. It is found that, when the MW amplitude is less than the spacing range of static instability in the total force, the slider jumps to a contact state from a near-contact or mobile-lubricant-contact state. It then jumps to a flying state even when the head surface is protruded further by increasing the TFC power. When the MW amplitude is relatively large, a drastically large spacing variation that contains a wide range of frequency components below 100 kHz appears in the static unstable region. These calculated results can clarify the mechanisms behind a few peculiar experimental phenomena reported in the past.
Issue Section:
Micro-Nano Tribology
References
1.
Kurita
, M.
, Xu
, J.
, Tokuyama
, M.
, Nakamoto
, K.
, Saegusa
, S.
, and Maruyama
, Y.
, 2005
, “Flying-Height Reduction of Magnetic-Head Slider Due to Thermal Protrusion
,” IEEE Trans. Magn.
, 41
(10
), pp. 3007
–3009
.2.
Xu
, J.
, Shimizu
, Y.
, Furukawa
, M.
, Li
, J.
, Sano
, Y.
, Shiramatsu
, T.
, Aoki
, Y.
, Matsumoto
, H.
, Kuroki
, K.
, and Kohira
, H.
, 2014
, “Contact/Clearance Sensor for HDI Subnanometer Regime
,” IEEE Trans. Magn.
, 50
(3
), p. 3300205
.3.
Canchi
, S. V.
, and Bogy
, D. B.
, 2010
, “Slider Dynamics in the Lubricant-Contact Regime
,” IEEE Trans. Magn.
, 46
(3
), pp. 764
–769
.4.
Ma
, Y.
, and Liu
, B.
, 2011
, “Experimental Study of Slider–Disk Interaction Process With Thermal-Flying-Height Controlled Slider
,” Microsyst. Technol.
, 17
(5
), pp. 965
–969
.5.
Shimizu
, Y.
, Xu
, J.
, Kohira
, H.
, Kuroki
, K.
, and Ono
, K.
, 2011
, “Experimental Study on Slider Dynamics During Touchdown by Using Thermal Flying-Height Control
,” Microsyst. Technol.
, 17
(5–7
), pp. 897
–902
.6.
Zeng
, Q.
, Yang
, C.-H.
, Ka
, S.
, and Cha
, E.
, 2011
, “An Experimental and Simulation Study of Touchdown Dynamics
,” IEEE Trans. Magn.
, 47
(10
), pp. 3433
–3436
.7.
Yu
, S. K.
, Liu
, B.
, Zhou
, W. D.
, Hua
, W.
, and Gonzaga
, L.
, 2009
, “Dynamic Stability Analysis for Surfing Head-Disk Interface
,” IEEE Trans. Magn.
, 45
(11
), pp. 4979
–4983
.8.
Vakis
, A. I.
, Lee
, S.-C.
, and Polycarpou
, A. A.
, 2009
, “Dynamic Head-Disk Interface Instabilities With Friction for Light Contact (Surfing) Recording
,” IEEE Trans. Magn.
, 45
(11
), pp.4966
–4971
.9.
Zheng
, J.
, and Bogy
, D. B.
, 2012
, “Dynamic Instability of Thermal-Flying-Height-Control Sliders at Touchdown
,” Microsyst. Technol.
, 18
(9–10
), pp. 1319
–1322
.10.
Zheng
, J.
, and Bogy
, D. B.
, 2012
, “Numerical Simulation of Touchdown Dynamics of Thermal Flying-Height Control Sliders
,” IEEE Trans. Magn.
, 48
(9
), pp. 2415
–2420
.11.
Canchi
, S. V.
, and Bogy
, D. B.
, 2011
, “Thermal Fly-Height Control Slider Instability and Dynamics at Touchdown: Explanations Using Nonlinear Systems Theory
,” ASME J. Tribol.
, 133
(2
), p. 021902
.12.
Chen
, Y.-K.
, Peng
, J.-P.
, and Bogy
, D. B.
, 2016
, “Surface Evolution of Perfluoropolyether Film at High Speed Quasi-Contact Conditions
,” Appl. Phys. Lett.
, 108
(22
), p. 221602
.13.
Ono
, K.
, 2013
, “Design Theory and Vibration Characteristics of a Contact Head Slider
,” Microsyst. Technol.
, 19
(9–10
), pp. 1275
–1287
.14.
Johnson
, K. L.
, Kendall
, K.
, and Roberts
, A. D.
, 1971
, “Surface Energy and the Contact of Elastic Solids
,” Proc. R. Soc. London, Ser. A
, 324
(1558
), pp. 301
–313
.15.
Ono
, K.
, 2013
, “Replenishment Speed of Depleted Scar in Submonolayer Lubricant
,” Tribol. Lett.
, 52
(2
), pp. 195–203.16.
Ono
, K.
, 2017
, “Surface Texture Parameters of Perpendicular Magnetic Recording Disks
,” IEEE Trans. Magn.
, 53
(3
), p. 3300806.17.
Matthes
, L. M.
, Brunner
, R.
, Knigge
, B.
, and Talke
, F. E.
, 2015
, “Head Wear of Thermal Flying Height Control Sliders as a Function of Bonded Lubricant Ratio, Temperature, and Relative Humidity
,” Tribol. Lett.
, 60
(3
), p. 39.18.
Johnson
, K. L.
, 1985
, Contact Mechanics
, Cambridge University Press
, Cambridge, London, p. 90
.19.
Ono
, K.
, 2012
, “Numerical Method of Analyzing Contact Mechanics Between a Sphere and a Flat Considering Lennard-Jones Surface Forces of Contacting Asperities and Noncontacting Rough Surfaces
,” ASME J. Tribol.
, 134
(1
), p. 011402
.20.
Tani
, H.
, Mitsutome
, T.
, and Tagawa
, N.
, 2013
, “Adhesion and Friction Behavior of Magnetic Disks With Ultrathin Perfluoropolyether Lubricant Films Having Different End-Groups Measured Using Pin-on-Disk Test
,” IEEE Trans. Magn.
, 49
(6
), pp. 2638
–2644
.21.
Ono
, K.
, 2010
, “Numerical Analysis of Contact Mechanics Between a Spherical Slider and a Flat Disk With Low Roughness Considering Lennard–Jones Surface Forces
,” J. Adhes. Sci. Technol.
, 24
(15–16
), pp. 2341
–2362
.22.
Israelachvili
, J. N.
, 1992
, Intermolecular and Surface Forces
, 2nd ed., Academic Press
, London.23.
Chang
, W. R.
, Etsion
, I.
, and Bogy
, D. B.
, 1988
, “Adhesion Model for Metallic Rough Surfaces
,” ASME J. Tribol.
, 110
(1
), pp. 50
–56
.24.
Stanley
, H. M.
, Etsion
, I.
, and Bogy
, D. B.
, 1990
, “Adhesion of Contacting Rough Surfaces in the Presence of Sub-Boundary Lubrication
,” ASME J. Tribol.
, 112
(1
), pp. 98
–104
.25.
Derjaguin
, B. V.
, Muller
, V. M.
, and Toporov
, Y. P.
, 1975
, “Effect of Contact Deformations on the Adhesion of Particles
,” J. Colloid Interface Sci.
, 53
(2
), pp. 314
–326
.26.
Ono
, K.
, 2015
, “Analysis of Elastic Contact due to Meniscus Adhesion Force
,” JSME Trans.
, 81
(825
), p. 14-00673
(in Japanese).27.
Iida
, K.
, and Ono
, K.
, 2003
, “Design Consideration of Contact/Near-Contact Sliders Based on a Rough Surface Contact Model
,” ASME J. Tribol.
, 125
(3
), pp. 562
–570
.28.
Ono
, K.
, and Yamane
, M.
, 2007
, “Improved Analysis of Unstable Bouncing Vibration and Stabilizing Design of Flying Head Slider in Near-Contact Region
,” ASME J. Tribol.
, 129
(1
), pp. 65
–74
.29.
Ono
, K.
, and Yamane
, M.
, 2009
, “Erratum: ‘Improved Analysis of Unstable Bouncing Vibration and Stabilizing Design of Flying Head Slider in Near-Contact Region’ [Journal of Tribology, 2007, 129(1), pp. 65–74]
,” ASME J. Tribol.
, 131
(3
), p. 037001
.30.
Li
, J.
, Xu
, J.
, Shimizu
, Y.
, Honchi
, M.
, Ono
, K.
, and Kato
, Y.
, 2010
, “Design and Evaluation of Damped Air Bearings at Head-Disk Interface
,” ASME J. Tribol.
, 132
(3
), p. 031702
.31.
Yamane
, M.
, Ono
, K.
, and Iida
, K.
, 2002
, “Analysis of Tracking Characteristics and Optimum Design of Tri-Pad Slider to Micro-Waviness
,” ASME J. Tribol.
, 125
(1
), pp. 152
–161
.32.
Chen
, Y.-K.
, Peng
, J.-P.
, and Bogy
, D. B.
, 2014
, “Thermal Protrusion-Induced Air Bearing Slider Instability at Disk Proximity and Light Contact
,” IEEE Trans. Magn.
, 50
(7
), p. 3301707.Copyright © 2017 by ASME
You do not currently have access to this content.
