Strategies for improvement of tribological characteristics at the head/disk interface

Dae Eun Kim; Joon Woo Park; Dong Kuk Han; Yong Shik Park; Koo Hyun Chung

doi:10.1109/APMRC.2000.898926

Strategies for improvement of tribological characteristics at the head/disk interface

Dae Eun Kim, Joon Woo Park, Dong Kuk Han, Yong Shik Park, Koo Hyun Chung

Department of Mechanical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Tribological optimization of the head/disk interface is crucial to attain reliable performance of hard disk drives. As the flying height of the slider above the disk continues to decrease with increase in recording density, the concern for surface damage is greater than ever before. In this work a novel method to reduce debris contamination by way of trapping the particles in micro-grooves on the slider surface to protect the head is proposed. Tests performed with dummy sliders with several types of strategically designed micro-grooves show that the grooves are effective in removing the wear debris at the slider/disk interface. Furthermore, concept for stiction-free slider design has been investigated. Micro-bumps were fabricated on a slider surface in order to reduce stiction. Preliminary tests show that compared with conventional sliders, these sliders result in significantly lower stiction during contact-start-stop tests performed on the data zone of a magnetic disk. The concepts proposed in this work may be utilized in the design of future sliders for low flying heads on super-smooth disks.

Original language	English
Title of host publication	2000 Asia-Pacific Magnetic Recording Conference - Digests of APMRC 2000 on Mechanical and Manufacturing Aspects of HDD
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	TB4/1-TB4/2
ISBN (Electronic)	0780362543, 9780780362543
DOIs	https://doi.org/10.1109/APMRC.2000.898926
Publication status	Published - 2000
Event	Asia-Pacific Magnetic Recording Conference, APMRC 2000 - Tokyo, Japan Duration: 2000 Nov 6 → 2000 Nov 8

Publication series

Name	2000 Asia-Pacific Magnetic Recording Conference - Digests of APMRC 2000 on Mechanical and Manufacturing Aspects of HDD

Other

Other	Asia-Pacific Magnetic Recording Conference, APMRC 2000
Country/Territory	Japan
City	Tokyo
Period	00/11/6 → 00/11/8

Bibliographical note

Publisher Copyright:
© 2000 IEEE.

All Science Journal Classification (ASJC) codes

Engineering(all)

Access to Document

10.1109/APMRC.2000.898926

Cite this

Kim, D. E., Park, J. W., Han, D. K., Park, Y. S., & Chung, K. H. (2000). Strategies for improvement of tribological characteristics at the head/disk interface. In 2000 Asia-Pacific Magnetic Recording Conference - Digests of APMRC 2000 on Mechanical and Manufacturing Aspects of HDD (pp. TB4/1-TB4/2). Article 898926 (2000 Asia-Pacific Magnetic Recording Conference - Digests of APMRC 2000 on Mechanical and Manufacturing Aspects of HDD). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/APMRC.2000.898926

Kim, Dae Eun ; Park, Joon Woo ; Han, Dong Kuk et al. / Strategies for improvement of tribological characteristics at the head/disk interface. 2000 Asia-Pacific Magnetic Recording Conference - Digests of APMRC 2000 on Mechanical and Manufacturing Aspects of HDD. Institute of Electrical and Electronics Engineers Inc., 2000. pp. TB4/1-TB4/2 (2000 Asia-Pacific Magnetic Recording Conference - Digests of APMRC 2000 on Mechanical and Manufacturing Aspects of HDD).

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title = "Strategies for improvement of tribological characteristics at the head/disk interface",

abstract = "Tribological optimization of the head/disk interface is crucial to attain reliable performance of hard disk drives. As the flying height of the slider above the disk continues to decrease with increase in recording density, the concern for surface damage is greater than ever before. In this work a novel method to reduce debris contamination by way of trapping the particles in micro-grooves on the slider surface to protect the head is proposed. Tests performed with dummy sliders with several types of strategically designed micro-grooves show that the grooves are effective in removing the wear debris at the slider/disk interface. Furthermore, concept for stiction-free slider design has been investigated. Micro-bumps were fabricated on a slider surface in order to reduce stiction. Preliminary tests show that compared with conventional sliders, these sliders result in significantly lower stiction during contact-start-stop tests performed on the data zone of a magnetic disk. The concepts proposed in this work may be utilized in the design of future sliders for low flying heads on super-smooth disks.",

author = "Kim, {Dae Eun} and Park, {Joon Woo} and Han, {Dong Kuk} and Park, {Yong Shik} and Chung, {Koo Hyun}",

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doi = "10.1109/APMRC.2000.898926",

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Kim, DE, Park, JW, Han, DK, Park, YS & Chung, KH 2000, Strategies for improvement of tribological characteristics at the head/disk interface. in 2000 Asia-Pacific Magnetic Recording Conference - Digests of APMRC 2000 on Mechanical and Manufacturing Aspects of HDD., 898926, 2000 Asia-Pacific Magnetic Recording Conference - Digests of APMRC 2000 on Mechanical and Manufacturing Aspects of HDD, Institute of Electrical and Electronics Engineers Inc., pp. TB4/1-TB4/2, Asia-Pacific Magnetic Recording Conference, APMRC 2000, Tokyo, Japan, 00/11/6. https://doi.org/10.1109/APMRC.2000.898926

Strategies for improvement of tribological characteristics at the head/disk interface. / Kim, Dae Eun; Park, Joon Woo; Han, Dong Kuk et al.
2000 Asia-Pacific Magnetic Recording Conference - Digests of APMRC 2000 on Mechanical and Manufacturing Aspects of HDD. Institute of Electrical and Electronics Engineers Inc., 2000. p. TB4/1-TB4/2 898926 (2000 Asia-Pacific Magnetic Recording Conference - Digests of APMRC 2000 on Mechanical and Manufacturing Aspects of HDD).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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AB - Tribological optimization of the head/disk interface is crucial to attain reliable performance of hard disk drives. As the flying height of the slider above the disk continues to decrease with increase in recording density, the concern for surface damage is greater than ever before. In this work a novel method to reduce debris contamination by way of trapping the particles in micro-grooves on the slider surface to protect the head is proposed. Tests performed with dummy sliders with several types of strategically designed micro-grooves show that the grooves are effective in removing the wear debris at the slider/disk interface. Furthermore, concept for stiction-free slider design has been investigated. Micro-bumps were fabricated on a slider surface in order to reduce stiction. Preliminary tests show that compared with conventional sliders, these sliders result in significantly lower stiction during contact-start-stop tests performed on the data zone of a magnetic disk. The concepts proposed in this work may be utilized in the design of future sliders for low flying heads on super-smooth disks.

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Y2 - 6 November 2000 through 8 November 2000

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Kim DE, Park JW, Han DK, Park YS, Chung KH. Strategies for improvement of tribological characteristics at the head/disk interface. In 2000 Asia-Pacific Magnetic Recording Conference - Digests of APMRC 2000 on Mechanical and Manufacturing Aspects of HDD. Institute of Electrical and Electronics Engineers Inc. 2000. p. TB4/1-TB4/2. 898926. (2000 Asia-Pacific Magnetic Recording Conference - Digests of APMRC 2000 on Mechanical and Manufacturing Aspects of HDD). doi: 10.1109/APMRC.2000.898926

Strategies for improvement of tribological characteristics at the head/disk interface

Abstract

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Bibliographical note

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