Coating processes – Magnetic base or coating – Magnetic coating
Reexamination Certificate
2000-01-28
2001-02-27
Pianalto, Bernard (Department: 1762)
Coating processes
Magnetic base or coating
Magnetic coating
C427S132000, C427S385500, C427S407100, C427S430100
Reexamination Certificate
active
06194025
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a method for manufacturing a magnetic recording medium mounted in magnetic storage devices used in data storage devices of data processing devices such as computers. More specifically, the present invention relates to a method for forming a lubricating film disposed on a protective film of the magnetic recording medium.
Generally, magnetic storage devices (hard disk drives) (hereinafter also referred to as device) include a magnetic recording medium (magnetic disk medium) (hereinafter also referred to as medium) rotatable at high speeds, and a magnetic head facing the medium. Data are written to the medium and data recorded on the medium are read by having the magnetic head fly slightly above the medium rotating at high speeds due to the air currents generated by the rotation of the medium. The data recording density of the medium is greater when the distance between the magnetic layer of the medium and the magnetic head (the magnetic head flight) is small. Devices generally use the CSS (Contact Start Stop) system. When the device is inactive, the magnetic head is resting on the static medium surface. When the device is starting up or is stopping, the magnetic head temporarily makes sliding contact with the medium that is spinning up or spinning down. To allow the sliding contact to be smooth when this happens, a lubricant film is generally disposed on the medium surface.
Conventionally, the lubricant film for this type of medium is formed using methods such as: dipping, where a non-magnetic substrate formed with everything up to a protective film (hereinafter referred to as substrate with protective film) is immersed in a container of lubricant solution and then pulled up; spin-coating, where a lubricant solution is dripped to the surface of the protective film on a rotating substrate with protective film; and fluid drainage, where a substrate with protective film is immersed in a lubricant solution, and then the lubricant solution is allowed to flow out from the bottom of the container with the help of gravity.
The lubricant film of the medium is important for maintaining the reliability of the magnetic storage device since it provides smoothness during the temporary sliding contact between the surface of the medium and the magnetic head when the device is being started or stopped. In particular, there has been a growing demand for increased storage capacity in devices, and there is a need to keep the magnetic head flight small when the device is operating. Thus, film thickness of the lubricant film and variations in the film thickness must be kept within the order of angstroms. As a result, surrounding air currents during formation of the lubricant film must be eliminated and vibration from support mechanisms, drive mechanisms and the like for the substrate with protective film must be eliminated. Also, contamination of the lubricant solution from organic gas, inorganic gas, and particles present in the film-forming atmosphere must be prevented. Furthermore, transpiration of solvent from the lubricant solution can result in changes in the concentration of the lubricant solution, resulting in changes in the thickness of the lubricant film being formed. For this reason, transpiration of the solvent must be prevented. Furthermore, when fluorine-based solvents are used as the solvent in the lubricant solution, environmental considerations require that transpiration of the solvent vapor to the atmosphere must be reduced as much as possible.
OBJECTS AND SUMMARY OF THE INVENTION
The object of the present invention is to overcome the problems described above and to provide a method for forming a homogeneous lubricant film with minimal variation in thickness on a protective film surface of a substrate with protective film.
To achieve these objects, the present invention provides a method for manufacturing a magnetic recording medium wherein a non-magnetic base layer, a magnetic layer, a protective film, and a lubricant film are formed in sequence on a non-magnetic substrate. A substrate with protective film is immersed in a lubricant solution in a sealed container. The lubricant solution can be either a mixture of liquid lubricant and a solvent or a lubricant solution and a liquid lubricant and an additive (a material to prevent degeneration of the lubricant, a material to improve lubrication, or the like). Then, an inert gas is introduced into the sealed container to increase the pressure within the sealed container. The lubricant solution is discharged to form a lubricant film.
Once immersed in the lubricant, the substrate with protective film stays static while the film is formed. Thus, there is no vibration from a support mechanism, a drive mechanism, or the like for the substrate with protective film. Since film formation takes place in the sealed container, there is no transpiration of solvent from the lubricant solution and there is no change in concentration of the lubricant solution. Also, various forms of contamination are avoided. Since an appropriate gas pressure is used to push out and discharge the lubricant solution, it is possible to eliminate the variations in the thickness of the film caused, for example, by the conventional fluid drainage method, where the discharge volume changes so that the thickness of the lubricant film varies.
Briefly stated, the present invention provides a lubricant film formed on the surface of a substrate of a magnetic recording medium. The substrate consists of a non-magnetic base layer, a magnetic layer and a protective film, in that order. The substrate is immersed in a lubricant solution in a sealed container. The sealed container is pressurized with an inert gas introduced in the sealed container. The lubricant solution is then discharged, thereby forming a lubricant film on the surface of the protective film. Lubricant film thickness is varied by controlling a discharge rate, either by controlling the gas pressure, or the outflow rate of the lubricant solution.
According to an embodiment of the invention, there is provided a method for forming a lubricant film on a magnetic recording substrate, said substrate being of a type including a non-magnetic base layer, a magnetic layer, and a protective film in this named sequence, comprising: immersing said substrate in a lubricant solution in a sealed container which includes a liquid lubricant and a solvent, pressurizing said sealed container by introducing an inert gas in said sealed container, and discharging said lubricant solution for forming said lubricant film.
According to a feature of the invention, there is provided a method for forming a lubricant film on a magnetic recording substrate, said substrate being of a type including a non-magnetic base layer, a magnetic layer, and a protective film in this named sequence, comprising: immersing said substrate in a lubricant solution in a sealed container which includes a liquid lubricant, an additive and a solvent, pressurizing said sealed container by introducing an inert gas in said sealed container, and discharging said lubricant solution for forming said lubricant film.
According to a further feature of the invention, there is provided a magnetic recording medium made by the method of either of the two preceding paragraphs.
The above, and other objects, features and advantages of the present invention will become apparent from the following description read in conjunction with the accompanying drawings, in which like reference numerals designate the same elements.
REFERENCES:
patent: 360038719 (1985-02-01), None
patent: 3-80430 (1991-04-01), None
Fuji Electric & Co., Ltd.
Morrison Law Firm
Pianalto Bernard
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