To achieve a higher storage density in a hard disk drive, the fly height of the air bearing slider, as part of the magnetic spacing, has to be minimized. At an ultralow fly height, the intermittent–continuous contact at the head–disk interface (HDI) is unavoidable and directly affects the mechanical and magnetic performance of the hard disk drive, and is of great interest. The HDI wear has a nonlinear and time-varying nature due to the change of contact force and roughness. To predict the HDI wear evolution, an iterative model of Coupled Head And Disk (CHAD) wear, is developed based on the contact mechanics. In this model, a composite transient wear coefficient is adopted and multiple phases of the wear evolution are established. A comprehensive contact stiffness is derived to characterize the contact at the HDI. The abrasive and adhesive wear is calculated based on the extended Archard’s wear law. The plastic and elastic contact areas are calculated with a three-dimensional (3D) sliding contact model. Based on the CHAD wear model, for the first time, the coupling between head and disk wear evolutions is thoroughly investigated. Accelerated wear tests have also been performed to verify the disk wear effect on the slider wear. A wear coefficient drop with time is observed during the tests and it is attributed to a wear mechanism shift from abrasive to adhesive wear. A shift in the type of contact from plastic to elastic accounts for the wear mechanism change.
Skip Nav Destination
e-mail: Wei.Peng@seagate.com
e-mail: James.D.Kiely@seagate.com
e-mail: Yiao-Tee.Hsia@seagate.com
Article navigation
January 2005
Technical Papers
Wear Analysis of Head-Disk Interface During Contact
Wei Peng,
e-mail: Wei.Peng@seagate.com
Wei Peng
Mechanical Integration, Seagate Technology, 1251 Waterfront Place, Pittsburgh, PA 15222-4215
Search for other works by this author on:
James Kiely,
e-mail: James.D.Kiely@seagate.com
James Kiely
Mechanical Integration, Seagate Technology, 1251 Waterfront Place, Pittsburgh, PA 15222-4215
Search for other works by this author on:
Yiao-Tee Hsia
e-mail: Yiao-Tee.Hsia@seagate.com
Yiao-Tee Hsia
Mechanical Integration, Seagate Technology, 1251 Waterfront Place, Pittsburgh, PA 15222-4215
Search for other works by this author on:
Wei Peng
Mechanical Integration, Seagate Technology, 1251 Waterfront Place, Pittsburgh, PA 15222-4215
e-mail: Wei.Peng@seagate.com
James Kiely
Mechanical Integration, Seagate Technology, 1251 Waterfront Place, Pittsburgh, PA 15222-4215
e-mail: James.D.Kiely@seagate.com
Yiao-Tee Hsia
Mechanical Integration, Seagate Technology, 1251 Waterfront Place, Pittsburgh, PA 15222-4215
e-mail: Yiao-Tee.Hsia@seagate.com
Contributed by the Tribology Division for publication in the ASME JOURNAL OF TRIBOLOGY. Manuscript received by the Tribology Division April 1, 2004; revised manuscript received May 26, 2004. Review conducted by: C.-P. Roger Ku.
J. Tribol. Jan 2005, 127(1): 171-179 (9 pages)
Published Online: February 7, 2005
Article history
Received:
April 1, 2004
Revised:
May 26, 2004
Online:
February 7, 2005
Citation
Peng, W., Kiely, J., and Hsia, Y. (February 7, 2005). "Wear Analysis of Head-Disk Interface During Contact ." ASME. J. Tribol. January 2005; 127(1): 171–179. https://doi.org/10.1115/1.1843832
Download citation file:
Get Email Alerts
Related Articles
Experimental and Numerical Analysis of Read/Write Head Suspension Dynamics for High-Performance Floppy Drive Systems
J. Vib. Acoust (January,1990)
Vapor-Phase Lubrication in Combined Rolling and Sliding Contacts: Modeling and Experimentation
J. Tribol (July,2001)
Related Chapters
Adhesive Wear and Exploratory Testing of Aerospace Bearing Steels
Bearing and Transmission Steels Technology
Surface Analysis and Tools
Tribology of Mechanical Systems: A Guide to Present and Future Technologies
Thin Adhesive Layer Analysis (TALA) for Modeling Sealants and Adhesives Installed in Joints
Structural Shear Joints: Analyses, Properties and Design for Repeat Loading