KR860001477B1 - Magnetic tape - Google Patents

Abstract

A coating compn. for magnetic recording tape is prepd. by dissolving nitrocellulose in magnetic paint and adding linear polyester resin and acrylonitrile-butadiene copolymer. Nitrocellulose is dissolved in magnetic paint to disperse magnetic materials. As bonding agents, linear polyester resin and acrylonitrile-butadiene copolymer which is polymerized in the mole ratio of 20:80 - 40:60, are added to the dispersed magnetic paint in the weight ratio of 85:15 - 70:30, of which ratio to the magnetic paint is 20 - 50 wt.%.

Description

Magnetic recording tape

The present invention relates to a magnetic recording tape having excellent magnetic recording characteristics and a magnetic layer having improved wear resistance and durability.

In general, magnetic recording tapes commonly used in audio, video, and computers are manufactured by applying a magnetic paint on a polyethylene terephthal tape tape (hereinafter referred to as a base film) having a thickness of 5 to 20 μm to form a magnetic layer after drying. Magnetic paint consists of a solvent containing a defect and a magnetic component.

The magnetic layer, which greatly influences the performance of the magnetic recording tape, should have excellent magnetic properties. In addition, the magnetic layer should be in contact with the recording / reproducing head, the pinch roller, the guide pin, etc. of the magnetic recording device.

When the wear resistance and durability are weakened, the magnetic component is separated from the magnetic layer or the transition of the magnetic component occurs, resulting in dropout of the recording signal or the generation of an erroneous signal. In particular, in audio or video, output reduction, noise, The result is a poor playback screen.

Magnetic properties required for such magnetic recording tapes include coercive residual magnetic flux density, saturation magnetic flux density, and square ratio. Among them, in particular, the square ratio (expressed as the ratio between the residual magnetic flux density Br and the saturation magnetic flux density Bm and Br / Bm) This greatly contributes to improving the electronic change characteristics such as the sensitivity of the magnetic recording tape and the distortion rate of the recording signal.

The larger the square ratio, the better the electron conversion characteristics. Therefore, the increase in the square ratio in manufacturing a magnetic recording tape has an important value.

Currently commercially available magnetic tapes have a square ratio of about 0.80. The square ratio shows a value close to 1 as the needle-like magnetic components distributed in the magnetic layer are uniformly dispersed without being in contact with each other and the lengthwise direction of the needle-like components is oriented in a constant direction. In other words, when the magnetic components are agglomerated with each other or the arrangement direction is confused, the square ratio decreases.

Generally, after dispersing agent is added to uniformly disperse the magnetic component in the magnetic coating, the magnetic coating is dispersed in a ball mill, homogenizer or sand grinder. At this time, as the dispersant, lysine (Lecithin) or esters of fatty acids, fatty acids and higher alcohols are used.

However, the use of such a relatively low molecular weight dispersant such as lycidine or fatty acid ester adversely affects mechanical performance such as durability and wear resistance of the magnetic layer, which is not only the adhesion between the magnetic component and the binder but also the adhesion between the base film and the magnetic layer. There is a cause for this deterioration.

When the adhesive force is lowered, when the magnetic recording device component and the tape are rubbed, the magnetic component is released from the magnetic layer, and dropout is likely to occur. For example, when used as a tape for video, strong friction with the recording or playback head, and the dropping of magnetic components caused by contact with pinch rollers and guide pins, causes white spots to appear on the playback screen. When used for a computer, a false signal can cause fatal failure.

At the same time, the remaining low molecular weight dispersant adsorbed on the magnetic component may move or agglomerate in the magnetic layer, thereby changing the output of the magnetic tape.

In order to compensate for this drawback, British Patent Nos. 1058426 and 1132957 propose to use a polymer material as a dispersant. In particular, nitrocellulose is known to have affinity with magnetic components and to disperse magnetic components very well. For example, Nitrocellulose was used as a dispersant. For example, US Pat. No. 4,385,48 used a vinyl resin and a linear saturated polyester resin as a binder to prepare a magnetic recording tape. However, in this case, because the vinyl resin is used, it is necessary to add a lubricant because the friction coefficient is increased due to the adhesive force in the magnetic layer at high temperature and high humidity, and the vinyl resin itself has disadvantages such as lack of adhesion to the magnetic component or the base film. Viscosity also appears.

In the case of using urethane resin, in order to reinforce the mechanical strength, isocyanate compound is added to form a crosslink in the magnetic layer. The isocyanate compound added to the magnetic paint is coated on the base film with a magnetic paint, dried, and heated to be urethane resin. To form a crosslink. Therefore, in this case, a heating step is required in the manufacturing process, and when the isocyanate compound is added to the magnetic paint, gelation proceeds as time passes, and thus the viscosity of the paint changes, which causes a decrease in productivity. An example of this is US Pat. No. 4,415,495.

The present invention uses nitrocellulose as a dispersant to improve these conventional drawbacks, and a linear magnetic polyester and acrylonitrile-butadiene copolymer as a binder and excellent magnetic recording performance, wear resistance and durability is increased The object is to provide a magnetic recording tape.

The present invention is described in detail as follows.

According to the present invention, a magnetic recording tape is prepared by dissolving nitrocellulose as a dispersing agent of a magnetic layer in a magnetic paint to disperse a magnetic component, and then dissolving a linear saturated polyester and an acrylonitrile-butadiene polymer and applying it to a base film. It is a magnetic recording tape which is characterized by being dried after being dried.

Hereinafter, the present invention will be described in more detail.

In the present invention, nitrocellulose is used as a dispersant to disperse the magnetic component in the base film for producing a magnetic recording tape, but the nitrocellulose is dissolved in a solvent so as to disperse the magnetic component in a high degree. When the linear polyester resin and the acrylonitrile-butadiene polymer are dissolved in the dispersed state, the magnetic component is dispersed in a stable state.

In the present invention, the linear saturated polyester is composed of a similar component and structure to the polyethylene terephthalate used as the base film, and thus has excellent bonding properties with the base film, and has excellent durability and wear resistance as mechanical properties of the polyester itself. However, if only the linear saturated polyester is used as a binder, the magnetic layer becomes too hard. Therefore, when used in a magnetic recording tape, it may wear out the head of the magnetic recording device or may not run smoothly in the magnetic recording device. Acrylonitrile-butadiene copolymer is added as a cobinder to impart (softly bendable) and elasticity. In addition, when the driving is not smooth, the wound state becomes uneven when the tape is wound on the reel. If the tape is preserved in an uneven state, the recording state of the signal is deformed, which may cause a false signal.

According to the present invention, in order for the acrylonitrile-butadiene copolymer to fully play its role, it is appropriate that the monomer has a molar ratio of 20: 80-40: 60 of acrylonitrile and butadiene, but if the molar ratio of acrylonitrile is 40 In the case of% or more, it is not suitable because it forms a too hard magnetic layer, and in the case of 20% or less, the mechanical properties decrease. Therefore, in the case of acrylonitrile-butadiene copolymer having a high acrylonitrile content, it is necessary to add more to the linear saturated polyester, and when the acrylonitrile content is low, a small amount may be added to have a magnetic layer showing sufficient performance. It can manufacture.

Examples of the linear saturated polyester used in the present invention include those commercially available under the names such as "Vylon" # 200, # 300, manufactured by Toyobo Corporation, and "SP-211", manufactured by Hitachi, Japan. As an example of the ronitrile-butadiene polymer, what is marketed under the name of "N1432" of Nippon Xeon Corporation of Japan, etc. are suitable.

Examples of nitrocellulose suitable for use include those marketed under the name "HIG Hl 2" of Asahi Kasei of Japan.

According to the present invention, the ratio of the linear saturated polyester and acrylonitrile-butadiene copolymer used in the method of the present invention is in a weight ratio of 90:10 to 50:50, more preferably 85:15 to 70:30. It is suitable to use. This is also related to the content of acrylonitrile monomer component in the acrylonitrile-butadiene polymer as described above, and in general, when the component of linear saturated polyester is 90% or more of the binder component of the magnetic layer, the magnetic layer becomes too hard. This is because the mechanical strength is lowered when the amount of acrylonitrile-butadiene polymer is 50% or more.

On the other hand, when the magnetic powder is dispersed, nitrocellulose is more strongly attached to the magnetic component than the solvent, and the other part of the nitrocellulose attached is strongly bound to the polyester resin and acrylonitrile-butadiene polymer, so that the magnetic component once dispersed is difficult to aggregate again. Lose.

Therefore, after dissolving nitrocellulose in a solvent and dispersing the magnetic component and dissolving the linear saturated polyester resin and the acrylonitrile-butadiene polymer, the magnetic component is uniformly dispersed in the magnetic coating and the magnetic coating is dispersed in the base film. When applied to a magnetic field and dried after orientation treatment by a magnetic field, a magnetic recording tape having excellent electronic conversion characteristics having a square ratio of 0.83-0.85 is produced. Moreover, the magnetic recording tapes produced in this way are excellent in durability and wear resistance because they use a binder of excellent mechanical performance. At this time, the amount of nitrocellulose used is 1-10% with respect to the weight of the magnetic component, and if the amount is larger than that, the effect is inferior. The amount of the total binder composed of linear saturated polyester and acrylonitrile-butadiene copolymer is 20-50% with respect to the magnetic powder. If the total amount of the binder exceeds 50% of the magnetic component weight, the magnetic recording density is lowered. If the total amount of the binder is less than 20%, the performance of the binder is not sufficiently exhibited in the magnetic layer.

The present invention will be described in detail by the following examples, and the aberration evaluation method of the examples is as follows, but the present invention is not limited to the examples.

Square ratio: The square ratio is measured in the direction which the magnetic component was orientated using the vibration sample type magnetic flux meter manufactured by Toei-Kyoto.

Still duration: First, the magnetic tape is used as a video tape, and the image is first recorded on the tape, and the still image is reproduced during playback. At this time, the time from the stop time until the image is distorted is measured. The longer it takes, the better the durability and wear resistance.

Winding shape on the reel: When winding the magnetic tape on the reel at high speed, the shape of winding constantly is indicated as good or bad.

Example 1

8 g of nitrocellulose was dissolved in 600 g of a solution in which the ratio of methyl isobutyl ketone and butyl acetate was 1: 1, and 300 g of magnetic powder was added and dispersed in a ball mill for 30 hours. Then, 85 g of linear saturated polyester and 15 g of acrylonitrile-butadiene polymer are dissolved and added to 200 g of a solution in which the ratio of methyl isobutyl ketone and butyl acetate is 1: 1, and then dispersed in a ball mill for 10 hours.

The suspension thus obtained was applied onto a 12 μm thick polyethylene terephthalate film and passed through a 1000 Oe solenoid magnetic field to orient the magnetic component, followed by drying to obtain a total thickness of 8 μm. The film is pressed again by calender roll heated to about 70 DEG C to smooth the surface of the magnetic layer and cut to an appropriate width to form a magnetic recording tape for video.

Example 2

In Example 1, 75 g of linear saturated polyester and 25 g of acrylonitrile-butadiene polymer were added thereto to prepare a magnetic recording tape for video in the same manner as in Example 1.

Comparative Example 1

In Example 1, 100 g of linear saturated polyester is added, and no acrylonitrile-butadiene polymer is added. Otherwise, a magnetic recording tape was produced in the same manner as in Example 1.

Comparative Example 2

In Example 1, 75 g of "Aron 321" (vinyl resin of Japan's Dong-A Chemical Co., Ltd.) was added instead of the linear saturated polyester, and a magnetic recording tape was manufactured in the same manner as in Example 1.

Comparative Example 3

In Example 1, 8 g of lycithin is added instead of nitrocellulose. Otherwise, a magnetic recording tape was produced in the same manner as in Example 1.

The results evaluated in the above Examples and Comparative Examples are shown in the following table.

As described above, the magnetic recording tape prepared according to the present invention, unlike the conventional tape, magnetic recording performance by using linear saturated polyester and acrylonitrile-butadiene copolymer as a binder using nitrocellulose as a dispersant. This is very good and has the effect of enhanced wear resistance and durability.

Claims (1)

In a magnetic recording tape obtained by dissolving a magnetic coating in a solvent using nitrocellulose as a dispersing agent for magnetic coating, further dispersing the magnetic component therein, and then dissolving the binder, and applying and drying it on a film, Saturated polyester and acrylonitrile-butadiene copolymer are used in a weight ratio of 85:15 to 70:30, and the total amount of the binder is 20 to 50% by weight based on the magnetic component, and the acrylonitrile-butadiene copolymer is acryl A magnetic recording tape characterized in that ronitrile and butadiene are polymerized in a molar ratio of 20:80 to 40:60.