Disk shape and its effect on flyability

Author

Qian, Weimin ; Tang, Huan ; Kuo, David ; Gui, Jing

Author_Institution

Seagate Technol. LLC, Fremont, CA, USA

Volume

39

Issue

2

fYear

2003

fDate

3/1/2003 12:00:00 AM

Firstpage

735

Lastpage

739

Abstract

The static spacing loss of slider-disk interface is investigated through careful characterization of disk shape for disks of different form factors with different peak-to-valley flatness values. Measured radial profiles are normalized and found to be confined within a relatively narrow region. The representation of these shapes is reduced to a simple set of quadratic equations. Static flyability models associated with the disk radial slope (crown effect) and radial curvature (camber effect) are presented. Spacing loss is calculated for a negative pressure pico-slider and a positive pressure catamaran nano-slider. Results show that slider geometries and crown/camber sensitivity, as well as disk flatness and shape, all affect static slider-disk spacing loss. The analysis is focused on the effect of disk shape on the static spacing loss and its relationship to slider design.

Keywords

disc drives; hard discs; magnetic leakage; crown effect; disk flatness; disk radial slope; disk shape; form factors; hard disk drives; negative pressure pico-slider; peak-to-valley flatness values; positive pressure catamaran nano-slider; quadratic equations; radial curvature; radial profiles; slider-disk interface; spacing loss; static flyability models; static spacing loss; Damping; Disk recording; Distortion measurement; Drives; Equations; Geometry; Hard disks; Phase shifting interferometry; Shape measurement; Solid modeling;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2003.809004

Filename

1190093