Stock material or miscellaneous articles – Structurally defined web or sheet – Continuous and nonuniform or irregular surface on layer or...
Reexamination Certificate
1998-12-24
2001-03-27
Le, H. Thi (Department: 1773)
Stock material or miscellaneous articles
Structurally defined web or sheet
Continuous and nonuniform or irregular surface on layer or...
C428S328000, C428S329000, C428S331000, C428S403000, C428S404000, C428S690000, C428S690000, C428S690000
Reexamination Certificate
active
06207253
ABSTRACT:
BACKGROUND OF THE INVENTION:
The present invention relates to acicular hematite particles and a magnetic recording medium, and more particularly, to acicular hematite particles suitable as non-magnetic particles for a non-magnetic undercoat layer of a magnetic recording medium which exhibits a low light transmittance, an excellent smooth surface and a high strength, and can be prevented from being deteriorated in magnetic properties due to the corrosion of magnetic acicular metal particles containing iron as a main component which are dispersed in a magnetic recording layer thereof; a non-magnetic substrate for a magnetic recording medium provided with a non-magnetic undercoat layer containing the acicular hematite particles; and a magnetic recording medium comprising the non-magnetic substrate and a magnetic recording layer containing magnetic acicular metal particles containing iron as a main component.
With a development of miniaturized, lightweight video or audio magnetic recording and reproducing apparatuses for long-time recording, magnetic recording media such as a magnetic tape and magnetic disk have been increasingly and strongly required to have a higher performance, namely, a higher recording density, higher output characteristic, in particular, an improved frequency characteristic and a lower noise level.
Various attempts have been made at both enhancing the properties of magnetic particles and reducing the thickness of a magnetic recording layer in order to improve these properties of a magnetic recording medium.
The enhancement of the properties of magnetic particles is firstly described.
The required properties of magnetic particles in order to satisfy the above-described demands on a magnetic recording medium are a high coercive force and a large saturation magnetization.
As magnetic particles suitable for high-output and high-density recording, magnetic acicular metal particles containing iron as a main component, which are obtained by heat-treating acicular goethite particles or acicular hematite particles in a reducing gas, are widely known.
Although magnetic acicular metal particles containing iron as a main component have a high coercive force and a large saturation magnetization, since the magnetic acicular metal particles containing iron as a main component used for a magnetic recording medium are very fine particles having a particle size of not more than 1 &mgr;m, particularly, 0.01 to 0.3 &mgr;m, they easily corrode and the magnetic characteristics thereof are deteriorated, especially, the saturation magnetization and the coercive force are decreased.
Therefore, in order to maintain the characteristics of a magnetic recording medium which uses magnetic acicular metal particles containing iron as a main component as magnetic particles, over a long period, it is strongly demanded to suppress the corrosion of magnetic acicular metal particles containing iron as a main component as much as possible.
A reduction in the thickness of a magnetic recording layer is described. Video tapes have recently been required more and more to have a higher picture quality, and the frequencies of carrier signals recorded in recent video tapes are higher than those recorded in conventional video tapes. In other words, the signals in the short-wave region have come to be used, and as a result, the magnetization depth from the surface of a magnetic tape has come to be remarkably small.
With respect to short wavelength signals, a reduction in the thickness of a magnetic recording layer is also strongly demanded in order to improve the high output characteristics, especially, the S/N ratio of a magnetic recording medium. This fact is described, for example, on page 312 of
Development of Magnetic Materials and Technique for High Dispersion of Magnetic Powder,
published by Sogo Gijutsu Center Co., Ltd. (1982), “. . . the conditions for high-density recording in a coated-layer type tape are that the noise level is low with respect to signals having a short wavelength and that the high output characteristics are maintained. To satisfy these conditions, it is necessary that the tape has large coercive force Hc and residual magnetization Br, . . . and the coating film has a smaller thickness. . . . ”.
Development of a thinner film for a magnetic recording layer has caused some problems.
Firstly, it is necessary to make a magnetic recording layer smooth and to eliminate the non-uniformity of thickness. As well known, in order to obtain a smooth magnetic recording layer having a uniform thickness, the surface of the base film must also be smooth. This fact is described on pages 180 and 181 of
Materials for Synthetic Technology
-
Causes of Friction and Abrasion of Magnetic Tape and Head Running System and Measures for Solving the Problem
(hereinunder referred to as “
Materials for Synthetic Technology”
(1987), published by the Publishing Department of Technology Information Center,“. . . the surface roughness of a hardened magnetic coating film depends on the surface roughness of the base film (back surface roughness) so largely as to be approximately proportional, . . . , since the magnetic coating film is formed on the base film, the more smooth the surface of the base film is, the more uniform and larger head output is obtained and the more the S/N ratio is improved.”
Secondly, there has been caused a problem in the strength of a base film with a tendency of the reduction in the thickness of the base film in response to the demand for a thinner magnetic coating film. This fact is described, for example, on page 77 of the above-described
Development of Magnetic Materials and Technique for High Dispersion of Magnetic Powder,
“. . . Higher recording density is a large problem assigned t the present magnetic tape. This is important in order to shorten the length of the tape so as to miniaturize the size of a cassette and to enable long-time recording. For this purpose, it is necessary to reduce the thickness of a base film . . . With the tendency of reduction in the film thickness, the stiffness of the tape also reduces to such an extent as to make smooth travel in a recorder difficult. Therefore, improvement of the stiffness of a video tape both in the machine direction and in the transverse direction is now strongly demanded. . . . ”
There is no end to a demand for a higher performance in recent magnetic recording media. Since the above-described reduction in the thickness of a magnetic recording layer and a base film lowers the durability of the magnetic recording medium, an improvement of the durability of the magnetic recording medium is in strong demand.
This fact is described in Japanese Patent Application Laid-Open (KOKAI) No. 5-298679, “. . . With the recent development in magnetic recording, a high picture quality and a high sound quality have been required more and more in recording. The signal recording property is, therefore, improved. Especially, finer and higher-density ferromagnetic particles have come to be used. It is further required to make the surface of a magnetic tape smooth so as to reduce noise and raise the C/N . . . However, the coefficient of friction between the magnetic recording layer and an apparatus during the travel of the magnetic recording tape increases, so that there is a tendency of the magnetic recording layer of the magnetic recording medium being damaged or exfoliated even in a short time. Especially, in a videotape, since the magnetic recording medium travels at a high speed in contact with the video head, the ferromagnetic particles are apt to be dropped from the magnetic recording layer, thereby causing clogging on the magnetic head. Therefore, an improvement in the running durability of the magnetic recording layer of a magnetic recording medium is expected . . .”
The end portion of a magnetic recording medium such as a magnetic tape, especially, a video tape is judged by detecting a portion of the magnetic recording medium at which the light transmittance is large by a video deck. If the light transmittance of the whole part of a ma
Hayashi Kazuyuki
Iwasaki Keisuke
Morii Hiroko
Tanaka Yasuyuki
Le H. Thi
Nixon & Vanderhye
Toda Kogyo Corporation
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