KR920002578B1 - Magnetic tape - Google Patents

Abstract

The method for mfg. a magnetic recording tape is characterized by coating a magnetic coating material on the polyethylene terephthalate film, and orientating and drying the coated film. The coating material is composed of magnetic material (Co-r-Fe2O3), binder, activating agent, hardener and mixed solvent. Esp. cpd. (I), as the activating agent, of 1-10 wt. pt. is added to the coating material. In (I), M and M' is each Fe (II), Zn, Ca, Mg or Mn (II). The recording tape has an improved durability.

Description

Magnetic recording tape

The present invention relates to a magnetic recording tape, and more particularly, to reduce the friction coefficient between the magnetic recording tape and the magnetic head by forming a particle-shaped protrusion on the surface of the magnetic recording tape to reduce the friction area between the magnetic head. The present invention relates to a magnetic recording tape which is capable of fundamentally solving a contamination of a head by fixing a formed protrusion to a tape.

In recent years, as the use of magnetic recording tapes has been expanded and its use frequency has increased, the recording and playback frequently have to be repeated frequently, or the recorded records have to be preserved for a long time. There is a need for improvement. In order to improve durability, above all, the coefficient of friction of the magnetic recording tape must be lowered and the head contamination during recording and playback must be prevented. As a technique for lowering the coefficient of friction of magnetic recording tapes, Japanese Patent Publication Nos. 39-28367, 41-18064, 41-18065, 60-28052, US 3,490,946, 3,492,235, Nos. 3,523,066, 3,597,273, 3,837,912, 3,983,302 and 4,431,702, etc., these techniques can be applied to the magnetic body by adding several percent by weight of fatty acids, fatty acid esters or mixtures thereof to the magnetic component. This is to reduce the friction coefficient of. However, the magnetic recording tape produced by this method may have an effect of decreasing the coefficient of friction for the first time after manufacture. However, if the recording or reproducing is frequently performed or stored for a long time, the tape or the fatty acid may rise to the surface of the tape. The coefficient is rather increased, and moreover, the fatty acids or fatty acid esters that float on the surface are entangled with each other and become the main cause of contamination of the head upon contact with the magnetic head. On the other hand, as a way to prevent head contamination has not yet been proposed such a technology.

As a result of the intensive research efforts to solve the above problems, the present inventors have completely escaped from the concept of lubricants and introduced a new concept of rehabilitation. By reducing the contact area of the head, the friction coefficient is lowered, and the particle-shaped protrusions participate in the curing reaction and are fixed to the tape to prevent desorption from the magnetic layer, which may occur when rubbed with the magnetic head frequently or for a long time. Pollution can be fundamentally prevented.

That is, the present invention forms a projection in the form of particles on the magnetic recording tape and fixes it to the tape to maintain a low coefficient of friction even when used frequently or for long periods of time. It is an object to provide a recording tape.

Hereinafter, the present invention will be described in detail.

The present invention relates to a magnetic recording tape comprising a mixture of 1 to 10 parts by weight of a compound represented by the following general formula (I) with respect to 100 parts by weight of a magnetic material as a lubricant component to be added to ordinary resin in which the magnetic material is dispersed. It is a magnetic recording tape applied to a nonmagnetic support.

Here, M and M 'are different from each other, and each is a divalent metal element.

Referring to the present invention in more detail as follows.

The compound of general formula (I) used as a lubricating agent in the present invention contains two different divalent metal elements, which act as nucleating agents to form particle-like protrusions on the surface of the tape. . In this way, when the tape-shaped protrusion is formed on the tape surface, the contact area with the magnetic head decreases when the tape is running, which lowers the coefficient of friction and also increases the surface hardness, thereby increasing the wear resistance during friction and wear with the magnetic head. Let's go.

In addition, the compound of the general formula (I) contains six carboxyl groups, which provide excellent affinity with the solvents of ketones used in the production of the magnetic recording tape.

The two hydroxyl groups of the compound of formula (I) are formed by the metal element of the compound of formula (I) by reacting with diisocyacet commonly used as a curing agent in the manufacture of a magnetic recording tape. The protrusions in the form of particles are fixed to the tape, which prevents the tape from detaching from the magnetic layer upon friction with the magnetic head, thus essentially preventing head contamination.

In the general formula (I), divalent metal elements represented by M and M 'are different from each other, and each of divalent metals such as Fe (II), Zn, Ca, Mg, or Mn (II) is used. desirable. Especially, Ca.Fe citrate which uses Ca as M and Fe (II) as M 'is preferable.

In the present invention, the compound of the general formula (I) is preferably added in an amount of 1 to 10 parts by weight based on 100 parts by weight of the magnetic substance, and when the compound of the general formula (I) is added in an amount less than the above range, The density of the projections (number / unit area) is too small to reduce the friction coefficient sufficiently. If the amount is added in an amount larger than the above range, the friction coefficient is greatly reduced, but the space between the tape surface and the magnetic head is lost and the electron conversion is performed. Among the characteristics, the RF output drops.

On the other hand, a method for manufacturing a magnetic recording tape is to use a conventional method, that is, the magnetic material is dispersed in a conventional resin, and the compound of the general formula (I) as a curing agent and a lubricant is added thereto and then it is a nonmagnetic support. When applied to and dried, a magnetic recording tape according to the present invention is produced. In this case, the metal element of the compound of formula (I) forms a particle-shaped protrusion on the surface of the tape, and the hydroxyl group of the formula (I) reacts with a curing agent to fix the particle-type protrusion in the tape. It serves to lower the coefficient of friction of the magnetic recording tape according to the present invention, thereby essentially suppressing contamination of the magnetic head.

EXAMPLE

Hereinafter, the present invention will be described in more detail with reference to Examples.

Example 1

100 parts by weight of magnetic material [Co-γ-Fe ₂ O ₃ ] and 3 parts by weight of lecithin, 5 parts by weight of carbon [XC-72R: manufactured by Cabot], 9 parts by weight of binder [VAGH: made by UCC], 11 parts by weight of binder [ CA-128: manufactured by Morton Co., Ltd., 3 parts by weight of lubricant [Ca.Fe citrate], 6 parts by weight of curing agent [Cornate 3041: manufactured by Nihon Polyurethane Co., Ltd.] and 420 parts by weight of mixed solvent [cyclohexanone, methyl ethyl ketone] The mixture was put in a premixer and stirred for 7 hours, and then dispersed in a sand grinder for 100 minutes. The magnetic coating thus obtained was coated, oriented, and dried on a polyethylene terephthalate base film with a thickness of 15 µm, calendered, and cut to an appropriate width to prepare a tape for magnetic recording.

The tape thus produced was measured according to the following method: ① RF power, ② dynamic friction coefficient, and ③ head contamination, and the results are shown in Table 1 below.

① RF output measurement: It was measured with an oscilloscope using Matsushita's NV-8200 deck and compared with its standard tape.

② Measurement of dynamic friction coefficient: After leaving the tape for 3 days at a temperature of 70 ℃, relative humidity 80%, it was measured by ASTM D-1984-73.

③ Head contamination measurement: Input color bar signal to tape, let it stand at temperature 70 ℃, relative humidity 80% for 3 days, and play back on deck based on the number of times the screen is distorted based on one T-120 cassette. Recorded.

EXAMPLES 2-6, COMPARATIVE EXAMPLE 1

A magnetic recording tape was prepared in the same manner as in Example 1 except that the magnetic coating was prepared according to the composition shown in Table 1 below.

The tape thus produced was measured for RF power, dynamic coefficient of friction and head contamination in the same manner as in Example 1, and the results are shown in Table 1.

TABLE 1

Claims (1)

In the magnetic recording tape, as a lubricant added to a conventional resin in which a magnetic substance is dispersed, a non-magnetic support is applied by mixing 1-10 parts by weight of a component of the following general formula (I) with respect to 100 parts by weight of a magnetic substance. Magnetic recording tape, characterized in that.

Here, M and M 'are different from each other, and each is a divalent metal element.