JPH06203366A - Magnetic recording medium and it production - Google Patents

Abstract

PURPOSE:To prevent forgery and ill use by providing and laminating a penetration preventive layer for a coating material for forming a second magnetic layer between first and second magnetic layers and putting decision information on addition and non-erasability at the time of applying the magnetic coating material. CONSTITUTION:The penetration preventive layer is provided by applying the coating material for preventing penetration on the first magnetic layer, by which an intermediate product is obtd. This product is formed as a delivery roll 19 and the information is magnetically recorded on the first magnetic layer. The product is then coated with the magnetic material for the second magnetic layer by a coating head 22, is passed along a roll 23, in a drying part 24 and along a roll 25 and is taken up on a take-up reel 26, by which the magnetic recording medium provided with the second magnetic layer is obtd. The first magnetic layer has 250 to 4000 oersted coercive force. The penetration of the coating material for the second layer is prevented by the preventive layer and tating material is made easily movable by the preventive layer in an undried state. Sufficient output is thus obtainable even if the second layer is thin by the influence of first magnetic recording patterns. The second layer is formed to have low coercive force of <=100 oersted so that the magnetic coating material is easily gathered and the patterns are easily formed.

Description

Detailed Description of the Invention

[0001]

The present invention has high productivity in shopping cards, savings and savings cards, commuter passes, boarding tickets, coupons, prepaid cards, cash cards, credit cards, point cards, identification cards, medical examination tickets, etc. The present invention provides a magnetic recording medium that is difficult to forge and a manufacturing method thereof.

[0002]

2. Description of the Related Art Recently, magnetic recording cards have been widely used in the above-mentioned fields of use, and their applications have been expanding more and more. The basic structure is such that a magnetic layer is provided on a base body made of a non-magnetic material and magnetized. Such a magnetic recording medium is required to prevent unauthorized use due to duplication or alteration of magnetic information,
Therefore, various measures against illegal use have been taken. Typical forgery / alteration prevention methods are roughly classified into a method of making recording / reproduction of magnetic recording information difficult and a method of providing authenticity determination information in the magnetic card itself. The former is a method that hides the recorded magnetic information and makes it difficult to tamper with or copy the magnetic information by making it difficult to write or read the information, and the latter is to determine whether or not the magnetic card is legitimate. This is a method of preventing forgery and alteration by putting the identification information of the above in the card itself.

[0003]

Recording of magnetically recorded information,
Known measures to prevent unauthorized use by making playback difficult include multi-layered magnetic recording sections to hide legitimate information and make it unreadable, or to superimpose dummy information on legitimate information. Although it makes the analysis of information difficult, there are drawbacks such that the manufacturing process is complicated for many minutes, and the recording and reading device is complicated.
Once the details of the method of hiding information are known, a person who is familiar with magnetic recording can read and analyze the information, so there is a possibility that duplication or alteration cannot be prevented. A magnetic card itself with authenticity information cannot be used unless it is a legitimate card with correct identification information, even if the magnetic information can be forged, but this method also has a complicated manufacturing process. However, there is a drawback that the device for reading the judgment information becomes complicated. In addition, there is a problem that unauthorized use cannot be prevented if the magnetic information of a legitimate card is altered. to solve this problem,
The inventors of the present invention have developed a magnetic recording medium which solves the above problems by combining a magnetic layer having a high coercive force and a magnetic layer having a low coercive force, and a manufacturing method thereof, in Japanese Patent Application No. 4-175930. However, as a result of earnest research on the improvement, it was found that when the magnetic paint for forming the second magnetic layer penetrates into the internal magnetic layer, sufficient characteristics are not exhibited. An object of the present invention is to solve the problems of the above conventional techniques.

[0004]

SUMMARY OF THE INVENTION An outline of the present invention is to provide a first magnetic layer made of a magnetic substance having a coercive force of 250 Oersted to 4000 Oersted on a substrate made of a non-magnetic substance, and 1
A magnetic recording medium comprising a second magnetic layer composed of a low coercive force magnetic substance of not more than 00 Oersted and a permeation-preventing layer for coating a second magnetic layer, and the layers are laminated. ). And a magnetic coating having a coercive force of 250 oersted to 4000 oersted is applied on a substrate made of a non-magnetic material and dried to form a first magnetic layer,
Subsequently, a permeation preventive coating for preventing permeation of the second magnetic layer coating is applied onto the first magnetic layer and dried to form a permeation preventive layer, after which magnetic recording is performed on the first magnetic layer, Then 10
A method of manufacturing a magnetic recording medium, characterized in that the second magnetic layer is formed by applying and drying a magnetic paint made of a low coercive force magnetic substance of 0 Oersted or less.

The present invention will be described below with reference to the drawings.
FIG. 1A is a plan view of a magnetic recording medium (card) according to the present invention, which has a magnetic recording track T. FIG. 1B is a cross-sectional view taken along line XX of the track T. The first magnetic layer 2 made of a magnetic material having a coercive force of 250 Oersted to 4000 Oersted and the permeation preventive layer 3 are formed on the substrate 1 made of a non-magnetic layer. 1
The second magnetic layer 4 made of a low coercive force magnetic substance of 00 Oersted or less and on which information that is difficult to add or erase is recorded is laminated to constitute the magnetic recording medium of the present invention. If necessary, a coating layer (not shown) may be further laminated. As shown in FIG. 1C, the state of the first magnetic layer and the second magnetic layer after magnetization in FIG. 1B is the second magnetic layer at the interface of the magnetic reversal part of the recording pattern of the first magnetic layer. Since the paint of the layer gathers, the structure shown in this figure is formed, and this is fixed as a magnetic bar code pattern.

Next, materials constituting the magnetic recording medium of the present invention will be described. First of all, as the base made of non-magnetic material,
A sheet-shaped non-magnetic material such as a polyester film having a thickness of 150 μm to 1 mm, a vinyl chloride film, synthetic paper, wood pulp paper, or laminated paper can be applied.

The magnetic material used for the first magnetic layer is γ
-Iron oxide, cobalt-doped gamma-iron oxide, chromium oxide,
Barium ferrite, strontium ferrite, etc. are applied, and these magnetic materials are used as vinyl chloride / vinyl acetate copolymer, vinyl chloride / vinyl acetate / vinyl alcohol copolymer, polyurethane resin, polyester resin, epoxy resin, polyisocyanate resin, etc. The first magnetic layer can be formed by applying a coating liquid prepared by dispersing a binder together with other additives such as pigments on the substrate. Also, the second
As the magnetic substance used for the magnetic layer of carbonyl iron powder, manganese zinc ferrite, nickel powder, triiron trioxide, permalloy, sendust, alperm, etc. are applied, and when these magnetic substances are used for the first magnetic layer, By applying a coating liquid in which the same binder is dispersed together with other additives such as pigments onto the first magnetic layer through the permeation preventive layer,
The magnetic layer can be formed. First magnetic layer and second
As the permeation preventive layer between the magnetic layers, a resin such as a polyester resin or a polyisocyanate resin having good adhesiveness to the inner and outer layers is selected and applied. Also, the second
The coating layer optionally provided on the magnetic layer of (a) is a colored layer containing (a) aluminum powder for hiding the coloring of the magnetic layer, a white pigment, etc. (b) a leuco dye-type heat-sensitive recording layer, tin A recording layer such as a discharge recording layer formed of a metal vapor-deposited layer of aluminum or the like (c) One or more layers of the protective layer formed of an ultraviolet curable resin can be sequentially laminated and formed.

Explaining the manufacturing method of the present invention, for example, as shown in FIG. 2, a substrate 1 made of a non-magnetic material is delivered from a delivery reel 11 and guided to a coating device 12 for coating the first magnetic layer. Work. The substrate 1 applied by the coating head 13 passes through the roll 14, the magnetic field orientation device 15, the drying part 16, and the roll 17, and is then wound around the winding reel 18. The wound product is a raw material coated with only the first magnetic layer. It is preferable that the first magnetic layer be magnetically oriented, but this may not be performed. next,
An original product take-up reel provided with the first magnetic layer is used as a delivery reel, and a permeation-preventing coating is applied according to FIG. 1 to provide a permeation-preventing layer, thereby obtaining an intermediate product. Next, as shown in FIG. 3, the take-up reel 19 of the original fabric of the intermediate product provided with the first magnetic layer and the permeation preventive layer is used as the delivery reel 19 and the information is magnetically recorded on the first magnetic layer by the magnetic head 20. After recording, it is guided to the coating device 21 for the second magnetic layer coating material and coated with the coating head 22, and the second magnetic layer is provided on the winding reel 26 through the roll 23, the drying part 24 and the roll 25. The magnetic recording medium of the present invention is obtained. As for the method of applying the second magnetic layer, other than this, a method of applying in sheet form, that is, a printing method such as a screen printing method, a gravure printing method, and an offset printing method can be used. In this case, magnetic recording may be performed in a sheet state. When a coating layer is further provided on this surface, the coating layer can be separately applied using a coating material for the coating layer in the same manner as the means for forming each layer.

In the above method, the first magnetic layer is a layer for performing ordinary magnetic recording and has a coercive force of 250 Oersted to 4000 Oersted, so that it is easily used for magnetic recording after the formation of the magnetic layer. Magnetic recording can be performed with the head. When the coercive force is less than 250 Oersted, magnetic recording is apt to be damaged by an external magnetic field after magnetic recording, and when it exceeds 4000 Oersted, saturation recording is difficult with a magnetic head currently in practical use. Further, the presence of the permeation preventive layer prevents the second magnetic layer coating material from penetrating into the first magnetic layer as the base. The magnetic coating material for the second magnetic layer can be kept in a very easy-to-move state by the permeation-preventing layer in an undried state immediately after being applied. Therefore, under the influence of the magnetic field generated from the magnetic recording pattern formed on the first magnetic layer, the paint easily gathers at the magnetic flux reversal interface. That is, it becomes easy to form a barcode pattern. Therefore, the output from the bar code pattern becomes high, and it is possible to obtain a sufficient output even if the coating layer of the second magnetic layer is thin. As a result, it is possible to reduce the influence of the second magnetic layer on the normal magnetic recording performed on the first magnetic layer. Furthermore, the coercive force of the magnetic material of the second magnetic layer is 10
Although it has a low coercive force of 0 Oersted or less, if it exceeds 100 Oersted, it is difficult for the magnetic paint to aggregate as shown in FIG. In addition, there is a problem that the magnetized state is identified by the magnetic viewer.

In the present invention, when the magnetic coating material forming the second magnetic layer is applied so as to be laminated on the first magnetic layer via the permeation preventive layer, the second magnetic layer immediately after the application is formed. In the state before being dried, the low coercive force magnetic substance gathers at the magnetic flux reversal interface portion according to the magnetic recording pattern of the first magnetic layer previously provided. Subsequently, when the second magnetic layer is dried, 10
The bar code pattern consisting of a low coercive force magnetic material of 0 Oersted or less is fixed, and it is possible to give fixed information to the medium that cannot be additionally recorded or erased later and can be used as unauthorized use prevention information. it can. This fixed information is formed by the coating material for the second magnetic layer gathering in a pattern according to the magnetic recording pattern applied to the first magnetic layer. That is, it is impossible to give different information to each individual card with a normal magnetic bar code or the like by the conventional method using the printing method, but the method according to the present invention records on the first magnetic layer. If the pattern is different for each card, it is possible to give different determination information to each card.

[0011]

EXAMPLES Examples of the present invention will be described below. Example 1 A coating material for the first magnetic layer was prepared with the following composition. Barium ferrite BaO.6Fe ₂ O ₃ 100 parts by weight (coercive force 2750 Oersted specific surface area 8 m ² / g) Carbon black 3 parts by weight Lecithin 1 part by weight Vinyl chloride / vinyl acetate / vinyl alcohol copolymer 20 parts by weight Polyurethane resin 20 parts by weight Parts Toluene 60 parts by weight Methyl ethyl ketone 60 parts by weight Methyl isobutyl ketone 60 parts by weight After this mixture was dispersed in a ball mill for 8 hours, 5 parts by weight of a polyisocyanate resin was added and further dispersed for 1 hour to prepare a first magnetic layer coating composition. Got The coating may be carried out according to a usual method for manufacturing a magnetic recording medium. That is, as shown in FIG. 2, for example, a white polyester film having a thickness of 188 μm is coated with the magnetic layer coating material at a coating head portion and dried in a drying part to form a magnetic layer having a thickness of 12 μm.
Take up as a magnetic material.

In the present invention, a permeation-preventing layer is provided on this,
The formulation examples of the paint are as follows. Polyester resin 95 parts by weight Polyisocyanate resin 5 parts by weight Toluene 60 parts by weight Methyl ethyl ketone 60 parts by weight Methyl isobutyl ketone 60 parts by weight This coating method can be easily carried out in accordance with the coating means of the first magnetic layer. it can.

Then, a coating material for the second magnetic layer was prepared with the following composition. Carbonyl iron powder 100 parts by weight (coercive force 10 oersted specific surface area 1 m ² / g) Carbon black 3 parts by weight Lecithin 1 part by weight Vinyl chloride / vinyl acetate / vinyl alcohol copolymer 20 parts by weight Polyurethane resin 20 parts by weight Toluene 60 parts by weight Methyl ethyl ketone 60 parts by weight Methyl isobutyl ketone 60 parts by weight After this mixture was dispersed by a ball mill for 8 hours, 5 parts by weight of a polyisocyanate resin was added and further dispersed for 1 hour to obtain a second magnetic layer coating material. As shown in FIG. 3, before applying the second magnetic layer coating material, magnetic recording is performed in advance on the first magnetic layer using a magnetic head. For the magnetic recording, the magnetic head 20 having a head gap of 50 μm was used, and recording was carried out with a recording current capable of sufficiently performing saturated recording on the first magnetic layer. The recording was performed by a 100 bpi FM system. Next, as shown in FIG. 3, the coating material for the second magnetic layer is applied by the coating head portion and dried in the drying part to form a second magnetic layer having a thickness of 3 μm. Take up as a medium.

From the thus obtained magnetic recording medium according to the present invention, a JIS size magnetic card was punched out and the following evaluations were carried out. That is, after recording on the first magnetic layer at the time of coating, as shown in FIG. 1 (b), the portion on which the second magnetic layer is formed has a magnetic field of 2750 Oersted on the track T of FIG. 1 (a). Information was recorded on the first magnetic layer when the information was read out by applying a bias magnetic field of 500 Gauss with a reproducing magnetic head after direct current erasing under a recording condition capable of saturation recording on the layer. However, the bar code pattern corresponding to the recorded information of the first magnetic layer is fixed on the second magnetic layer, and a reproduction output sufficient for performing signal processing according to the pattern could be obtained. This information was not erased by the DC demagnetization previously performed. That is, this information is fixed and can be used as anti-counterfeit information. In addition, a magnetic head capable of recording and erasing on a magnetic layer having a coercive force of up to 3000 Oersted in a portion other than the track T of this magnetic card is used.
When recording was performed by the FM system at a recording density of 0 bpi, normal recording and reproduction were possible. That is, it could be used as an ordinary magnetic card. Reproduction output resolution at this time (2F
Output / 1F output) was 90% or more.

Example 2 A coating material for the first magnetic layer was prepared with the following composition. Barium ferrite BaO.6Fe ₂ O ₃ 100 parts by weight (coercive force 2750 Oersted specific surface area 8 m ² / g) Carbon black 3 parts by weight Lecithin 1 part by weight Vinyl chloride / vinyl acetate / vinyl alcohol copolymer 20 parts by weight Polyurethane resin 20 parts by weight Parts Toluene 60 parts by weight Methyl ethyl ketone 60 parts by weight Methyl isobutyl ketone 60 parts by weight After this mixture was dispersed in a ball mill for 8 hours, 5 parts by weight of a polyisocyanate resin was added and further dispersed for 1 hour to prepare a first magnetic layer coating composition. Got The coating may be carried out according to a usual method for manufacturing a magnetic recording medium. That is, as shown in FIG. 2, for example, a white polyester film having a thickness of 188 μm is coated with the coating material for the first magnetic layer by a coating head portion, and a magnetic field orientation treatment is performed before the coating material is dried. Then, a magnetic layer having a thickness of 12 μm was formed, and the magnetic layer was wound up. When applying, it is preferable that the first magnetic layer be magnetically oriented, but it is not necessary to perform magnetic field orientation treatment.

A permeation preventive layer is provided on the first magnetic layer, and the coating material was prepared with the following composition. Polyester resin 95 parts by weight Polyisocyanate resin 5 parts by weight Toluene 60 parts by weight Methyl ethyl ketone 60 parts by weight Methyl isobutyl ketone 60 parts by weight

Next, this magnetic original fabric was cut into a sheet shape, and magnetic recording was performed on the obtained magnetic sheet. That is, recording was carried out using a magnetic head having a head cap of 50 μm at a recording current sufficient for saturated recording on the first magnetic layer.
The recording was performed by a 100 bpi FM system. On the thus-recorded magnetic sheet thus obtained, a second magnetic layer was formed by the following procedure using a screen printing method with a magnetic paint having the following composition. Carbonyl iron powder 100 parts by weight (coercive force 10 oersted specific surface area 1 m ² / g) Carbon black 3 parts by weight Lecithin 1 part by weight Vinyl chloride / vinyl acetate / vinyl alcohol copolymer 20 parts by weight Polyurethane resin 20 parts by weight Xylene 60 parts by weight Methyl ethyl ketone 60 parts by weight Methyl isobutyl ketone 60 parts by weight After this mixture was dispersed by a ball mill for 8 hours, 5 parts by weight of a polyisocyanate resin was added and further dispersed for 1 hour to obtain a screen printing ink for the second magnetic layer. It was Using the screen printing ink thus obtained, the first magnetic layer was formed on the first magnetic layer of the magnetic material sheet on which the first magnetic layer was formed and the magnetic recording was carried out, printed, dried, and The second magnetic layer was formed to have a thickness of 3 μm.

From the magnetic original fabric thus obtained, JIS
A size magnetic card was punched out and the following evaluations were performed. That is, after performing recording on the first magnetic layer at the time of coating, direct current erasing was performed on the portion of the track T on which the second magnetic layer was formed under a recording condition capable of performing saturation recording of the magnetic layer of 3000 Oersted, and then reproducing. Magnetic information was read while applying a bias magnetic field of 500 Gauss with a magnetic head for use.
A bar code pattern corresponding to the magnetic recording pattern formed on the first magnetic layer was fixed on the magnetic layer (1), and this information was not erased and could be read. Further, when recording was performed in the FM system at a recording density of 100 bpi with a magnetic head capable of recording and erasing on a magnetic layer having a coercive force of up to 2750 Oersted in a portion other than the track T of this magnetic card, normal recording and reproduction were possible. It was That is, it could be used as an ordinary magnetic card. At this time, the reproduction output resolution (2F output / 1F output) was 90% or more.

Example 3 A magnetic recording medium of the present invention was prepared in the same manner as in Example 1 except that the following formulation was prepared as the coating material for the second magnetic layer. Manganese zinc ferrite 100 parts by weight (coercive force 20 oersted specific surface area 10 m ² / g) Carbon black 3 parts by weight Lecithin 1 part by weight Vinyl chloride / vinyl acetate / vinyl alcohol copolymer 20 parts by weight Polyurethane resin 20 parts by weight Toluene 60 parts by weight Methyl ethyl ketone 60 parts by weight Methyl isobutyl ketone 60 parts by weight From the magnetic raw material thus obtained, a JIS size magnetic card was punched out and evaluated in the same manner as in Example 1, and the same result as in Example 1 was obtained. . In addition, a magnetic head capable of recording and erasing on a magnetic layer having a coercive force of up to 3000 Oersted in a portion other than the track T of this magnetic card.
When recording was performed by the FM method at a recording density of 00 bpi, normal recording and reproduction could be performed. That is, it could be used as an ordinary magnetic card. Reproduction output resolution at this time (2F
Output / 1F output) was 90% or more.

Example 4 A magnetic recording medium of the present invention was prepared in the same manner as in Example 1 except that the following formulation was prepared as the coating material for the second magnetic layer. Permalloy powder 100 parts by weight (coercive force 0.006 oersted specific surface area 1 m ² / g) Carbon black 3 parts by weight Lecithin 1 part by weight Vinyl chloride / vinyl acetate / vinyl alcohol copolymer 20 parts by weight Polyurethane resin 20 parts by weight Toluene 60 parts by weight Parts methyl ethyl ketone 60 parts by weight A mixture of methyl isobutyl ketone 60 parts by weight was dispersed in a ball mill for 8 hours, then 5 parts by weight of a polyisocyanate resin was added and further dispersed for 1 hour to obtain a second magnetic layer coating material. . The coating is performed by forming a first magnetic layer and applying a coating material for the second magnetic layer on the magnetic material coated with the permeation preventive layer so that the first magnetic layer is laminated. The coating may be performed in the same manner as forming the first magnetic layer. However, as shown in FIG. 3, before applying the second magnetic layer coating material, magnetic recording is performed in advance on the first magnetic layer using a magnetic head. For the magnetic recording, the magnetic head 20 having a head gap of 50 μm was used, and recording was carried out with a recording current capable of sufficiently performing saturated recording on the first magnetic layer. The record is 100 bpi F
The M method was used. Next, as shown in FIG. 3, the coating material for the second magnetic layer is applied by the coating head portion and dried in the drying part to form a second magnetic layer having a thickness of 3 μm. Take up as a medium. From the thus obtained magnetic recording medium according to the present invention, a JIS size magnetic card was punched out and the following evaluation was performed.

That is, a permeation preventive layer was provided on the first magnetic layer during coating, and then magnetic recording was performed. Then, as shown in FIG. 2, 2750 oersted was formed on the portion where the second magnetic layer was formed. After erasing direct current under a recording condition capable of saturation recording on the magnetic layer, information was read by applying a bias magnetic field of 500 gauss with a reproducing magnetic head, and the information recorded on the first magnetic layer was erased. However, the bar code pattern corresponding to the magnetic recording pattern formed on the first magnetic layer was fixed on the second magnetic layer, and this information was not erased, so that it could be read. Further, when recording was performed on the magnetic layer having a coercive force of up to 3000 Oersted on a portion other than the track T of this magnetic card by the FM system at a recording density of 100 bpi, it was possible to record and reproduce normally. It was That is, it could be used as an ordinary magnetic card. At this time, the reproduction output resolution (2F output / 1F output) was 90% or more.

Example 5 A magnetic recording medium of the present invention was obtained in the same manner as in Example 1 except that the permeation preventive layer was prepared by the following formulation. Needs correction. Polyester resin 95 parts by weight Polyisocyanate resin 5 parts by weight Toluene 60 parts by weight Methyl ethyl ketone 60 parts by weight Methyl isobutyl ketone 60 parts by weight A magnetic card was produced from the obtained magnetic recording medium in the same manner as in Example 1 and evaluated. , Can be used as a normal magnetic card.

Comparative Example 1 A magnetic card for comparison was prepared in the same manner as in Example 1 except that the permeation preventive layer was not provided. By setting the thickness of the second magnetic layer of this magnetic card to 6 μm, the same level of reproduction output as in Example 1 could be obtained. When a magnetic head capable of recording and erasing on a magnetic layer having a coercive force of up to 3000 Oersted was used in a portion other than the track T of this magnetic card to perform recording by the FM system, the reproduction output resolution (2F output / 1F output) was It was 70 to 80% or more, which was inferior to the stable examples of magnetic recording.

Comparative Example 2 A magnetic card for comparison was prepared in the same manner as in Example 1 except that the permeation preventive layer was not provided. By setting the thickness of the second magnetic layer of this magnetic card to 6 μm, the same level of reproduction output as in Example 1 could be obtained. When a magnetic head capable of recording and erasing on a magnetic layer having a coercive force of up to 3000 Oersted was used in a portion other than the track T of this magnetic card to perform recording by the FM system, the reproduction output resolution (2F output / 1F output) was It was 70 to 80%, which was inferior to the stable magnetic recording examples.

[0025]

In the magnetic recording medium according to the present invention, judgment information that cannot be added or erased later can be added when the magnetic paint is applied. The card manufactured by this method can be provided with unique judgment information for each card, and thus is extremely difficult to forge or illegally use. Further, the manufacturing facility is high in productivity because it is only necessary to add a simple magnetic recording device to the conventional magnetic recording medium manufacturing facility and no special technique is required.

[Brief description of drawings]

FIG. 1A is a plan view of a magnetic recording medium of the present invention. FIG. 1B is a magnetic state diagram after magnetization in the cross-sectional view taken along line XX in FIG. 1A. ) An enlarged cross-sectional view of the state of the first magnetic layer and the second magnetic layer of FIG.

FIG. 2 is a coating process diagram of a first magnetic layer

FIG. 3 is a coating process diagram of a second magnetic layer

[Explanation of symbols]

 T track 1 substrate made of non-magnetic layer 2 first magnetic layer 3 second magnetic layer 11 delivery reel 12 coating device for coating material for first magnetic layer 13 coating head part 14 roll 15 magnetic field aligning device 16 drying part 17 rolls 18 take-up reel 19 feed-out reel 20 magnetic head 21 coating device for paint for second magnetic layer 22 coating head part 23 roll 24 drying part 25 roll 26 take-up reel

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[Procedure amendment]

[Submission date] February 8, 1993

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] 0022

[Correction method] Change

[Correction content]

Example 5 A magnetic recording medium of the present invention was obtained in the same manner as in Example 1 except that the permeation preventive layer was prepared by the following formulation. Of polyester resin 95 parts by weight Polyisocyanate resin 5 parts by weight Toluene 60 parts by weight Methyl ethyl ketone 60 parts by weight of methyl isobutyl ketone 60 parts by weight of the resulting magnetic recording recording medium, to create a magnetic card in the same manner as in Example 1 was evaluated However, it could be used as a normal magnetic card.

Claims (2)

[Claims] 1. A first magnetic layer made of a magnetic material having a coercive force of 250 oersted to 4000 oersted and a second magnetic layer made of a low coercive force magnetic material of 100 oersted or less on a substrate made of a non-magnetic material. A magnetic recording medium, characterized in that a permeation-preventing layer of a second magnetic layer-forming coating material is provided between the layers, and the layers are laminated. 2. A first magnetic layer is formed by applying a magnetic paint having a coercive force of 250 Oersted to 4000 Oersted on a substrate made of a non-magnetic material and drying it.
Subsequently, a permeation preventive coating for preventing permeation of the second magnetic layer coating is applied onto the first magnetic layer and dried to form a permeation preventive layer, after which magnetic recording is performed on the first magnetic layer, Then 10
A method of manufacturing a magnetic recording medium, comprising forming a second magnetic layer by applying and drying a magnetic paint made of a low coercive force magnetic substance of 0 Oersted or less.