Burnishing head with circular burnishing pads

Abrading – Abrading process – Glass or stone abrading

Reexamination Certificate

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Details

C451S028000, C451S317000, C451S290000

Reexamination Certificate

active

06183349

ABSTRACT:

FIELD OF THE INVENTION
This invention relates to a burnishing head used to burnish the surface of magnetic or magneto-optical memory disks to remove defects such as asperities and contamination.
BACKGROUND OF THE INVENTION
Typical memory disks comprise a substrate plated with a hard material such as a nickel phosphorus alloy. The nickel phosphorus is then “textured” (i.e., roughened). An underlayer, a magnetic alloy or magneto-optical material, and a protective overcoat are then deposited on the nickel phosphorus, e.g., by sputtering. The memory disk manufacturing process leaves the surface of the disk in a slightly roughened condition often with asperities, voids, or contamination.
A memory disk, such as the type used in a computer hard disk drive, is generally mounted on a spindle driven by a motor to rotate the disk at high speed. A read/write head, kept in close proximity to the surface of the rotating disk, reads or writes data on the disk. The read/write head is separated from the disk surface by an air bearing created by the high speed rotation of the disk. The read/write head flies on this air bearing, e.g., at a height of approximately one microinch, although this height is getting lower with advancing technology. The closer the read/write head is to the disk surface, the more information that may be written on the disk. Thus, it is desirable for the read/write head to fly as close as possible to the disk.
The precision with which the read/write head flies over the memory disk requires that care is taken during manufacturing of the disk to assure that there are no asperities or contamination on the surface of the disk that are large enough to interfere with the read/write head. If a defect on the disk surface contacts the read/write head during use, the read/write head or the disk may be damaged. To prevent undesired contact between the read/write head and the disk, it is important to remove from the disk surface any defects that are large enough to interfere with the read/write head.
A “burnishing head” is used in magnetic disk or magneto-optical disk manufacturing to remove asperities or contamination from the disk surface that may interfere with the read/write head. An example of a burnishing head is described in U.S. Pat. No. 4,845,816.
Burnishing heads use rhomboid or diamond shaped pads.
FIG. 1
shows an enlarged view of the bottom surface of a burnishing head
2
with a plurality of burnishing pads
4
. Each burnishing pad
4
is diamond shaped and has sharp edges
6
and
8
. Edges
6
and
8
contact and cut protrusions on the memory disk surface as the disk rotates beneath burnishing head
2
. Burnishing head
2
also has a tapered leading edge
10
.
FIG. 2A
illustrates burnishing head
2
attached to a suspension arm
13
over the surface of a disk
14
, which is rotating in the direction of arrow
16
. The high speed rotation of disk
14
creates an air cushion or bearing over the surface of disk
14
. Lift is created under burnishing head
2
when the air bearing contacts tapered leading edge
10
and the large air bearing surface area, which is formed by the bottom of pads
4
.
As shown in
FIG. 2A
, burnishing head
2
flies over the surface of disk
14
at a slope angle &thgr;, approximately 0.015 degrees. Because burnishing head
2
flies at angle &thgr;, any contact between burnishing head
2
and the surface of disk
14
is primarily at the trailing edge
18
. Thus, trailing edge
18
wears down more quickly then the rest of burnishing head
2
. As shown in
FIG. 2A
, the trailing edge
18
is a distance d
d1
above disk
14
and the leading edge
10
is a distance d
d2
above disk
14
, where d
d1
is less than d
d2
because burnishing head is at an angle &thgr;.
FIG. 2B
shows a burnishing head
3
that has been worn with use. As shown in
FIG. 2B
, worn burnishing head
3
flies at the same angle &thgr;. The leading edge
10
of burnishing head
3
is a distance d
d4
from disk
14
, which is the same height as distance d
d2
as shown in FIG.
2
A. However, the trailing edge
18
of worn burnishing head
3
has been worn away. Thus, distance d
d3
of trailing edge
18
in
FIG. 2B
is greater than distance d
d1
in FIG.
2
A. Accordingly, worn burnishing head
3
is less effective than burnishing head
2
.
Also, burnishing head
2
sometimes rolls as it flies over the surface of disk
14
. Any roll of burnishing head
2
will cause a corner on trailing end
18
to contact the surface of disk
14
, which may result in scratching, gouging or other damage to disk
14
.
Burnishing head
2
has channels
12
, which separate diamond pads
4
from each other. Channels
12
are intended to accept debris as protrusions are cut from the surface of disk
14
. However, debris tends to accumulate in channels
12
. With the accumulation of debris in channels
12
, debris contamination may be spread to other parts of the memory disk, as well as to other memory disks upon which the burnishing head is subsequently used. The accumulated debris may gouge or otherwise damage areas of the memory disk which the debris contacts. Debris accumulation is caused by the straight sides of channels
12
disrupting and reflecting air flow through channels
12
during use of burnishing head
2
. Also, there is generally some residue remaining from the burnishing head manufacturing process in channels
12
. Due to the small size of channels
12
, typically 0.0045 inches across, it is difficult to clean channels
12
of all manufacturing residue. Thus, once debris from the cut protrusions is swept into the channels
12
, the debris tends to accumulate within the channels due to the residue already present in channels
12
and the lack of air flow through channels
12
.
FIG. 3A
is a graph showing the performance of an unused 70%, 4.5 mil diamond pad burnishing head. The term “70%” describes the size of the burnishing head and is understood by those skilled in the art. The term “4.5 mil” refers to the width of the channels
12
between diamond pads
4
. The vertical axis is the average hit voltage determined by a glider head. (A glider head is a test head used to test a disk for the presence of asperities and voids on the disk surface. A glider head provides an output “hit voltage” indicative of the size of the asperity or void encountered.) The horizontal axis is the test radii of the disks tested. The line with diamond data points is the average hit voltages of five disks before burnishing. The line with square data points represents the average hit voltage of the same five disks after two passes with diamond pad burnishing head.
FIG. 3B
is a graph similarly depicting the performance of the same burnishing head after eight hours of continuous use.
FIG. 3B
also depicts the initial average hit voltages of five unburnished disk and the average hit voltages on the same disks after two passes with the used diamond pad burnishing head. The used diamond pad burnishing head damaged the disks at the radii 1340 and 740 as illustrated by the 2-pass data line having a higher hit voltage than the initial data line.
As shown in
FIG. 1
, burnishing head
2
is asymmetrical. Diamond pads
4
are intended to travel over the surface of disk
14
in a specific direction, such that any protrusions on the surface of disk
14
meet cutting edges
6
and
8
of diamond pads
4
at the greatest oblique angle possible. In other words, each protrusion should be sliced from one side to the other by cutting edge
6
or
8
, rather than confronted all at once by cutting edge
6
or
8
. Tapered edge
10
further limits the direction of travel of burnishing head
2
relative to disk
14
because tapered edge
10
is the leading edge as illustrated in FIG.
2
.
FIGS. 4A and 4B
illustrate the alignment of prior art burnishing heads
2
A and
2
B when mounted to a suspension arm
13
over disk
14
rotating in the direction of arrow
18
.
FIG. 4A
shows burnishing head
2
A mounted to suspension arm
13
such that burnishing head
2
A is in a transverse direction relative to suspension arm
13
. Thu

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