Lubricant for magnetic recording medium

Solid anti-friction devices – materials therefor – lubricant or se – Lubricants or separants for moving solid surfaces and... – Organic phosphorus compound – wherein the phosphorus is...

Reexamination Certificate

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C428S690000, C428S690000, C428S690000, C428S900000, C360S135000

Reexamination Certificate

active

06541431

ABSTRACT:

This application is the National Stage Application of PCT/JP99/02751 filed May 25, 1999.
TECHNICAL FIELD
The present invention relates to a lubricant for magnetic recording medium, such as hard disks of large-capacity recording medium, and metal vapor-deposited tapes for 8 mm video tape recorder or digital video cassette. The present invention is suitable for use as a surface lubricant of a hard magnetic disk serving as a recording medium, in a recording device of contact start stop (CSS) method which establishes a contact between a recording medium and a recording/reproducing element when starting and stopping the device.
BACKGROUND ART
Thanks to prevalent internet, intranet, local area network, etc, information can be fetched easily only by gaining access to a network. One of those which support this multimedia era is external recording devices. Of existing large-capacity external recording devices, those of the so-called CSS method are usually employed in which a recording medium layer is provided on a disk substrate having a high strength (hard disk), and the hard disk is rotated at high speed to operate a recording/reproducing element (head). Examples of the hard disk are a stationary magnetic disk, optical disk and optical magnetic disk. Of these, the most prevalent is a device employing the stationary magnetic disk.
In order to increase the capacity of these external recording devices without changing their size, it is necessary to increase the surface recording density of a recording medium layer, for example. This requires that bit size be reduced and the head be brought near the recording medium as much as possible. To reduce a clearance between the head and disk, the unevenness of the disk surface should be minimized. For instance, to obtain a clearance of not more than 100 nm, the unevenness should be not more than 10 nm. However, if the smoothness of the disk surface is increased, the head is liable to be adsorbed onto the disk surface. To obtain high-speed response, it is necessary to increase bit transfer rate and therefore the rotational speed of the disk. For instance, a 3.5-inch hard disk requires a maximum number of revolution of 5400 to 7200 rpm, and the speed of the head as it passes through the periphery of the disk reaches 125 km/hr. Any of the above-mentioned modifications, however, increases considerably the probability of contact between the disk and head, as well as friction therebetween, thus decreasing the reliability.
In view of the foregoing, for protection of the disk surface and head, it is the simplest way to increase the amount of a lubricant applied to the surface of a protective coat for a disk. However, if the amount of a lubricant applied is increased, not only the slide resistance of the. lubricant layer is increased but also the adsorption of the lubricant is enhanced, thereby causing a stop or burning of a spindle motor. For decreasing slide resistance, if a lubricant of low viscosity is used, the lubricant moves and disappears from a protective layer during high-speed rotation of the disk. This causes a contact between the disk and head, and their breakage.
A lubricant, in an extremely simple manner, forms a lubricant film having a uniform thickness of molecules on a protective layer provided on a hard disk such as to reduce friction and wear which may be caused during the rotation of the hard disk and at the start and stop of the device. For protection of the disk and head, there is required a lubricant which has a low slide resistance, large bonding strength to a protective layer, low coefficient of friction, high chemical stability, high thermal stability, high corrosive resistance and lubricity at low temperatures of below −10° C., and, which can form ultrathin films at a low vapor pressure. A lubricant for hard disk is required to have no change in coefficient of friction over 20,000 times in CSS durability. That is, the lubricant should be free from abnormalities such as seizing of the head and blemish of the disk, and the variation in coefficient of friction should be no more than 0.3, even over 20,000 times in a CSS repeated test.
From the point of view of chemical stability, strength, ultrathin film formation and smoothness, Diamond Like Carbon (DLC) is used in the surface protective layer of existing hard disks. This protective layer is, as apparent from its structure, mainly composed of carbon, which leads to a low chemical bonding. Its adhesion therefore merely depends upon hydrogen bond with hydrogen atom or nitrogen atom, and interaction such as van der Waals force.
Thus, perfluoroalkyl polyether oligomer (hereinafter referred to as “PFPE”) is usually employed as a lubricant (Monthly magazine “Tribology”, No. 99, November, pp37-38, 1995). PFPE has a low surface energy, chemical inertness, low vapor pressure, and thermal stability, which characteristics are derived from fluorocarbon. Unfortunately, it has a drawback that the bonding strength to the protective layer surface is small because of low surface energy, and the lubricant moves and disappears from the protective layer by centrifugal force during the rotation of a disk. To suppress this, an additive of a secondary component is used (U.S. Pat. No. 4,871,625), however, low compatibility deriving from the fluorocarbon of PFPE causes a phase separation, failing to obtain sufficient effect. In order to afford affinity in PFPE, there has been proposed one method in which a functional group, such as hydroxyl group or acylamide group, is introduced into the terminal or center of the main chain of PFPE (FOMBLIN Z derivative, Ausimont S.p.A). Unfortunately, the functional group having such an active hydrogen might decrease chemical stability due to the friction with the head.
An object of the present invention is to provide a lubricant for hard disk which has excellent CSS durability.
DISCLOSURE OF THE INVENTION
The present invention relates to a lubricant for magnetic recording medium which comprises, as an effective component, a phosphazene compound of formula
[N═P[O(C
6
H
4
)—(A)
z
—R]
a
[OCH
2
—(B)
x
H]
b
]
y
  (1)
wherein A is —C
6
H
4
— or —OC
6
H
4
—, B is fluorine-containing alkylene group, R is hydrogen atom, fluorine atom, C
1-4
alkyl, C
1-4
alkoxy or C
1-4
haloalkyl, a and b are a real number of 0 to 2, satisfying a+b=2, x is 1, 2, 3 or 4, y is 3 or 4, and z is 0 or 1.
Excellent CSS durability of a compound of the invention is based on excellent lubricity, high extreme-pressure performance and excellent adhesion to a DLC protective layer, which characteristics are derived from Compound (1) shown in a number of prior art literatures, e.g., Japanese patent application No. 47680/1982. Here, the excellent adhesion to the DLC protective layer seems to arise from the synergetic effect between the interaction of the terminal hydrogen of fluorocarbon polarized by the adjacent fluorine atom, with hydrogen or nitrogen atom of the DLC protective layer, and the interaction of a phosphazene ring with the DLC protective layer.
In a phosphazene compound of the formula (1) of the invention, a fluorine-containing alkylene group indicated by B is preferably a straight-chain or branched one having 1 to 6 carbon atoms. Such a structure may incorporate an ether linkage. Examples of B are CF
2
, CF
2
CF
2
, CF
2
CF
2
O, CF
2
CF
2
CF
2
, CF(CF
3
)CF
2
, and CF
2
CF
2
OCF
2
CF
2
O.
As to R, examples of C
1-4
alkyl are methyl, ethyl, propyl and butyl; examples of C
1-4
alkoxy are methoxy, ethoxy, propoxy and butoxy; and examples of C
1-4
haloalkyl are groups in which the above alkyl group is substituted with fluorine, chlorine or bromine.
In the present invention, the number of R is 1 to 5, preferably 1 to 2. That is, the phenylene group or oxyphenylene group of A can have 1 to 5 of R as a substituent.
These phosphazene compounds are known compounds which are described in, for example, JP-A-164698/1983, JP-A-265394/1987, JP-A-103428/1988, and U.S. Pat. No. 4,613,548, and they can be prepared by, for example, reacting th

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