Enhanced durability ultra-low-flying-height sliders

Details Enhanced durability ultra-low-flying-height sliders Enhanced durability ultra-low-flying-height sliders

1999-08-18

2001-10-16

Ometz, David L. (Department: 2652)

Dynamic magnetic information storage or retrieval

Fluid bearing head support

Disk record

C360S235200, C360S235800

Reexamination Certificate

active

06304418

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to air bearing sliders for carrying a transducing head in a disc drive. More particularly, it relates to an air bearing slider capable of operation at ultra-low flying heights.
Air bearing sliders have been extensively used in magnetic disc drives to appropriately position a transducing head above a rotating magnetic disc. In most high capacity magnetic storage applications, when the disc is at rest, the air bearing slider is in contact with the disc. During operation, the disc rotates at high speeds, which generates a “wind” of air immediately adjacent to the flat surface of the disc. This wind acts upon a lower air bearing surface of the slider and generates a force directing the slider away from the disc and against a load beam causing the slider to “fly” a small distance above the disc. A slider is typically mounted on a gimbal and load beam assembly which biases the slider toward the rotating disc, providing a spring force opposite to the bearing force of the wind incident on the air bearing surface of the slider.
For the disc drive to function properly, the slider must maintain the proper fly height, and the load beam assembly must provide adequate air bearing stiffness to assure that the slider does not contact the disc. Also, the air bearing slider must have a low take-off speed and low stiction at start up to limit disc contact and thus damage during take-off and landing of the slider. This is also important to limit slider wear.
As magnetic disc storage systems are designed for greater and greater storage capacities, the density of concentric data tracks on magnetic discs is increasing (that is, the size of data tracks and radial spacing between data tracks is decreasing), requiring that the air bearing gap between the transducer carried by the slider and the rotating magnetic disc be reduced. A requirement for achieving a small air bearing gap is increased disc smoothness. Increased disc smoothness leads to increased stiction between the disc and the air bearing surface of the slider. Increased stiction is detrimental because it requires increased energy during startup of the rotation of the magnetic disc.
One aspect of achieving higher data storage densities in magnetic discs is operating the air bearing slider at ultra-low flying heights. As air bearing slider flying heights reach ultra-low levels, contact between the transducing head on the air bearing surface of a slider and the magnetic disc are essentially unavoidable. When a disc drive is subjected to a mechanical hock of sufficient amplitude, the slider may overcome the biasing force of the load beam and lift off from the disc. Damage to the disc may occur when the slider returns to the disc and impacts the disc under the biasing force of the load beam. Such contact can result in catastrophic head-disc interface failure. Damage to the disc may occur which can result in loss or corruption of data or, in a fatal disc “crash,” render the disc drive inoperable. Contact resulting in catastrophic failure is more likely to occur in ultra-low flying height systems.
There is a need in the art for a slider having an air bearing surface that will minimize catastrophic head-disc inter failure upon contact of the slider with the disc, while maintaining proper fly height and adequate air bearing stiffness. Also, there is a need in the art for a slider having an air bearing surface that will minimize stiction and friction between the slide and the surface of the magnetic disc.
BRIEF SUMMARY OF THE INVENTION
The present invention is a slider having an air bearing surface designed to minimize catastrophic head-disc interface failure upon contact of the slider with the disc during operation. The slider carries a head for transducing data with a concentric track of a disc. The slider includes a slider body having a leading edge and a trailing edge. The slider body also has a disc opposing face. The slider also includes an air bearing surface formed on the disc opposing face of the slider body. The air bearing surface includes a plurality of projections extending from the surface for providing lift to the slider body when the disc is rotating. At least a portion of at least one of the plurality of projections is constructed from a low-friction, high-wear-resistance material distinct from the material used to construct the slider body and the remainder of the plurality of projections.
The present invention also includes a method for constructing an ultra-low-flying-height slider for carrying a transducing head in a disc drive system including a rotatable disc. The method includes the step of removing material from an air bearing surface of the slider to determine the location where contact with the rotatable disc is likely to occur. Next, the method includes filling the channel with a low-friction, high-wear-resistance material such that the air bearing surface is configured the same as the air bearing surface configuration prior to removing material to create the channel.


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