JP3056864B2 - Magnetic recording medium and recording method - Google Patents
Magnetic recording medium and recording methodInfo
- Publication number
- JP3056864B2 JP3056864B2 JP3354070A JP35407091A JP3056864B2 JP 3056864 B2 JP3056864 B2 JP 3056864B2 JP 3354070 A JP3354070 A JP 3354070A JP 35407091 A JP35407091 A JP 35407091A JP 3056864 B2 JP3056864 B2 JP 3056864B2
- Authority
- JP
- Japan
- Prior art keywords
- magnetic
- magnetic material
- recording medium
- coercive force
- recording
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Landscapes
- Paints Or Removers (AREA)
- Magnetic Record Carriers (AREA)
- Credit Cards Or The Like (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は磁気記録体に、特に偽造
防止を目的とした磁気カードに関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magnetic recording medium, and more particularly to a magnetic card for preventing forgery.
【0002】[0002]
【従来の技術】最近の磁気カードの普及はめざましく、
その利用分野は益々広がっている。とくに近年はプリペ
イドカードと称される前払い方式のカードが多く発行さ
れている。しかしこの種のカードは金券同等に用いられ
るため、紙幣などと同様に改ざん、変造、複製等により
容易に偽造されてはならない。これまでに偽造防止を目
的として種々の考案がなされている。2. Description of the Related Art The recent spread of magnetic cards has been remarkable.
Its fields of use are expanding. Particularly in recent years, many prepaid cards called prepaid cards have been issued. However, since this kind of card is used like a cash voucher, it must not be easily forged by falsification, alteration, duplication, etc., like bills. Various devices have been devised for the purpose of preventing forgery.
【0003】例えば、特開昭61−248202号公報
に開示されたような2種類の磁性体の保磁力の差を利用
する方式である。この従来の方式は、記録データを記憶
する高保磁力磁性層と妨害データを記憶する低保磁力磁
性層とを基体上に積層して形成した方式である。また、
特開昭63−127423号公報に開示されたような高
保磁力磁性体と低保磁力磁性体とを混合した磁性層を基
体上に形成した方式である。[0003] For example, a system utilizing the difference in coercive force between two types of magnetic materials as disclosed in Japanese Patent Application Laid-Open No. 61-248202. This conventional method is a method in which a high coercivity magnetic layer for storing recording data and a low coercivity magnetic layer for storing disturbing data are laminated on a substrate. Also,
This is a method in which a magnetic layer in which a high coercive force magnetic material and a low coercive force magnetic material are mixed is formed on a substrate as disclosed in JP-A-63-127423.
【0004】[0004]
【発明が解決しようとする課題】しかしながら従来提案
されているこれらの方式は用いられる磁性体のキュリー
温度が高く常温でデータの記録、消去をする必要があ
り、通常の記録に用いられる磁気ヘッドでデータの記
録、消去ができ、高保磁力磁性層(体)と低保磁力磁性
層(体)との分離、書き換えが可能である。偽造防止と
しては十分とはいえない。However, these methods proposed in the prior art have a high Curie temperature of the magnetic material used, and need to record and erase data at room temperature. Data can be recorded and erased, and the high coercivity magnetic layer (body) and the low coercivity magnetic layer (body) can be separated and rewritten. It is not enough to prevent forgery.
【0005】本発明は媒体の構成とそれへの記録方法の
両面から偽造を防止する、効果の高い方式を提供するこ
とを目的とする。SUMMARY OF THE INVENTION It is an object of the present invention to provide a highly effective system for preventing forgery from both the structure of a medium and the method of recording on the medium.
【0006】[0006]
【課題を解決するための手段】本発明の目的は、高保磁
力、低キュリー温度の第一の磁性体にこれよりも低保磁
力、高キュリー温度の第二の磁性体を混合した磁気記録
媒体、並びに前記記録媒体をを加熱して書き込む記録方
法によって達成される。SUMMARY OF THE INVENTION An object of the present invention is to provide a magnetic recording medium comprising a first magnetic substance having a high coercive force and a low Curie temperature mixed with a second magnetic substance having a low coercive force and a high Curie temperature. And a recording method for heating and writing the recording medium.
【0007】高保磁力磁性体としてはBaフェライト、
Srフェライトなどの酸化物系が一般的であり、保磁力
5000エルステッド程度が可能である。この大きさに
なると通常、記録に用いられる磁気ヘッドのコア材はフ
ェライト、PCパーマロイ、Fe−Al−Si合金であ
るから、一般的な記録装置ではこれら高保磁力磁性体は
磁化できない。しかし、高保磁力磁性体は通常、保磁力
が10000エルステッドが上限であり、この程度の保
磁力ではたとえば通常は用いないPBパーマロイ、鉄・
コバルト合金などを磁気ヘッドのコア材に用いれば、十
分に飽和記録ができるかは問題だが、一応の記録は可能
である。したがって高保磁力といっても、余程特殊な高
保磁力磁性体を使用しない限りある程度の記録ができて
しまう。As the high coercive force magnetic material, Ba ferrite,
An oxide system such as Sr ferrite is generally used, and a coercive force of about 5000 Oe is possible. At this size, since the core material of the magnetic head used for recording is usually ferrite, PC permalloy, or Fe-Al-Si alloy, these magnetic materials having a high coercive force cannot be magnetized by a general recording apparatus. However, a high coercive force magnetic material usually has a maximum coercive force of 10,000 Oersteds, and a coercive force of this level is, for example, PB permalloy, iron,
If a cobalt alloy or the like is used for the core material of the magnetic head, it is a problem whether saturation recording can be sufficiently performed, but temporary recording is possible. Therefore, even with a high coercive force, a certain amount of recording can be performed unless a special high coercive force magnetic material is used.
【0008】そこで本発明では前述のように高保磁力、
低キュリー温度の第一の磁性体と、これよりも低保磁
力、高キュリー温度の第二の磁性体を混合した磁気記録
媒体を、第一の磁性体のみを磁化し第二の磁性体は磁化
させないで記録する方式を提供し、またこのように記録
されたときのみ正規の記録と判定する方法を提供するも
のである。Therefore, in the present invention, as described above, a high coercive force,
A magnetic recording medium in which a first magnetic material having a low Curie temperature and a second magnetic material having a lower coercive force and a higher Curie temperature are mixed, and only the first magnetic material is magnetized, and the second magnetic material is Another object of the present invention is to provide a method of recording without magnetizing, and a method of judging that the recording is normal only when the recording is performed in such a manner.
【0009】[0009]
【実施例の説明】以下に図を用いて本発明を説明する。
図1は本発明の一実施例としての磁気カードの断面図で
ある。この実施例においては、磁気カードは高保磁力、
低キュリー温度の磁性体1と低保磁力、高キュリー温度
の磁性体2とを混合した磁気記録層3を基体4の上に形
成し、データの記録は磁性体1のキュリー温度よりやや
低い温度に加熱された状態で行う。図2は本発明に用い
られる磁性体の保磁力と温度の関係の一例を示したもの
である。これによればキュリー温度より少しだけ低い温
度では磁性体1の保磁力は常温での値に比べ極端に低い
値となっている。したがって加熱により磁気記録する場
合には記録電流も極端に小さい値になる。もしこの記録
電流を磁性体2への記録に必要な記録電流に比較して小
さく設定すれば、加熱下では高保磁力の磁性体1に記録
され、低保磁力の磁性体2には記録されないことにな
る。一方、もし通常使用される磁気ヘッドにより、通常
の方法で記録しようとした場合には低保磁力の磁性体2
にしか記録されない。高保磁力の磁性体1に記録されな
いとすれば、読み取り時に低保磁力の磁性体2を消磁す
る磁界を与えれば、何の情報も記録されていないことに
なる。さらにPBパーマロイ、鉄・コバルト合金などの
高飽和磁束密度を有する材料を磁気ヘッドコアにして大
記録電流で記録を行った場合、高保磁力磁性体1および
低保磁力磁性体2の両方を磁化することになるから、磁
性体1のみの記録とは異なった出力、出力波形となる。DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings.
FIG. 1 is a sectional view of a magnetic card as one embodiment of the present invention. In this embodiment, the magnetic card has a high coercivity,
A magnetic recording layer 3 in which a magnetic material 1 having a low Curie temperature and a magnetic material 2 having a low coercive force and a high Curie temperature are mixed is formed on a substrate 4, and data is recorded at a temperature slightly lower than the Curie temperature of the magnetic material 1. It is carried out in a state where it has been heated. FIG. 2 shows an example of the relationship between the coercive force and the temperature of the magnetic material used in the present invention. According to this, at a temperature slightly lower than the Curie temperature, the coercive force of the magnetic body 1 is extremely lower than the value at room temperature. Therefore, when magnetic recording is performed by heating, the recording current also has an extremely small value. If this recording current is set to be smaller than the recording current required for recording on the magnetic body 2, it is recorded on the magnetic body 1 having a high coercive force under heating and not recorded on the magnetic body 2 having a low coercive force. become. On the other hand, if recording is to be performed by a normal method using a normally used magnetic head, a magnetic material having a low coercive force 2
Only recorded in. If it is not recorded on the magnetic material 1 having a high coercive force, if a magnetic field for demagnetizing the magnetic material 2 having a low coercive force is applied at the time of reading, no information is recorded. Further, when recording is performed with a large recording current using a material having a high saturation magnetic flux density such as PB permalloy or an iron / cobalt alloy as a magnetic head core, both the high coercivity magnetic body 1 and the low coercivity magnetic body 2 are magnetized. Therefore, the output and the output waveform are different from those of the recording using only the magnetic material 1.
【0010】本発明で保磁力の温度依存性及び相互関係
が規定した関係をを満足するかぎり本発明の磁気記録媒
体に使用できる第一及び第二の磁性体の材料には特に制
限がないが、以下に使用できる磁性体の材料を例示す
る。The first and second magnetic materials that can be used in the magnetic recording medium of the present invention are not particularly limited, as long as the temperature dependency of the coercive force and the relationship defined by the mutual relationship are satisfied in the present invention. Examples of magnetic materials that can be used below are given below.
【0011】まず第一の磁性体としては式 MeO・n
[Fe2-x-y-z Gax Cry AlzO3 ] (上記式中、Meは、Ba、Sr、PbおよびCaのう
ちの1種以上を表す。また、4.5≦n≦6、x≧0、
y≧0、z≧0、x/3+y/4+z/6≧1/6、x
/6+y/10+z/11≦1/6である。)で表され
る組成を有する磁性体である。これらの磁性体は、保磁
力が約5000エルステッド以上であり、またキュリー
温度は200℃以下である。First, the first magnetic material has the formula MeO.n
[Fe 2-xyz Ga x Cr y Al z O 3] ( In the formula, Me represents, Ba, Sr, represents one or more of Pb and Ca. Further, 4.5 ≦ n ≦ 6, x ≧ 0,
y ≧ 0, z ≧ 0, x / 3 + y / 4 + z / 6 ≧ 1/6, x
/ 6 + y / 10 + z / 11 ≦ 1 /. ). These magnetic materials have a coercive force of about 5000 Oe or more and a Curie temperature of 200 ° C. or less.
【0012】使用できる他の第一の磁性体としては 式 Rx Fe100-x-y-z By Mz (上記式中、RはYを含む希土類元素の1種以上を表
す。また、MはTi、V、Zr、Cr、Mn、Nb、T
a、Hf、W、Mo、Ni、CuおよびZnの1種以上
である。また、x、yおよびzは原子百分率を表し、5
≦x≦30、2≦y≦30、3≦z≦35である。)で
表される組成を有する磁性体である。これらの磁性体
は、保磁力が約5000エルステッド以上であり、また
キュリー温度は200℃以下である。[0012] During Other first magnetic usable formula R x Fe 100-xyz B y M z ( the above formulas, R represents one or more rare earth elements including Y. Further, M is Ti, V, Zr, Cr, Mn, Nb, T
a, Hf, W, Mo, Ni, Cu and Zn. X, y and z each represent an atomic percentage, and 5
≦ x ≦ 30, 2 ≦ y ≦ 30, 3 ≦ z ≦ 35. ). These magnetic materials have a coercive force of about 5000 Oe or more and a Curie temperature of 200 ° C. or less.
【0013】使用できる他の第1の磁性体としては 式 Smx Niy Co100-x-y (上記式中、xおよびyは原子百分率を表し、8≦x≦
25、30≦y≦70である。)で表される組成を有す
る磁性体である。これらの磁性体は、保磁力が約500
0エルステッド以上であり、またキュリー温度は200
℃以下である。使用できる更に他の第一の磁性体として
は 式 R(Co1-x Nix )y Bz (上記式中、RはYを含む希土類元素の1種以上を表
す。また、0.05≦x≦0.5、1.8≦y≦5.
5、0.18≦z≦2.4である。)で表される組成を
有する磁性体である。これらの磁性体は、保磁力が約5
000エルステッド以上であり、またキュリー温度は2
00℃以下である。特にRとしてSmを50at%以上
含有するものが好ましい。As another first magnetic substance that can be used, the following formula is used: Sm x Ni y Co 100-xy (where x and y represent atomic percentages and 8 ≦ x ≦
25, 30 ≦ y ≦ 70. ). These magnetic materials have a coercive force of about 500
0 Oersted or higher and Curie temperature 200
It is below ° C. Still another first magnetic substance that can be used is represented by the formula R (Co 1-x Ni x ) y B z (wherein R represents one or more rare earth elements including Y. In addition, 0.05 ≦ x ≦ 0.5, 1.8 ≦ y ≦ 5.
5, 0.18 ≦ z ≦ 2.4. ). These magnetic materials have a coercive force of about 5
2,000 Oersteds or higher and Curie temperature of 2
It is below 00 ° C. Particularly, those containing 50 at% or more of Sm as R are preferable.
【0014】第二の磁性体として使用できる材料にはB
aフェライト、CrO2 、γFe2O3 、Fe3 O4 、
Co被着γFe2 O3 、フェライト系磁性体、メタル
粉、等があり、例えばBaフェライトは保磁力が400
0エルステッド以下、キュリー温度が300℃以上であ
る。第一及び第二の磁性体のほかに他の磁性体を含んで
もよいが、磁気記録はそのうち第一の記録媒体のキュリ
ー温度の少し低い温度で行う。The material usable as the second magnetic material is B
a Ferrite, CrO 2 , γFe 2 O 3 , Fe 3 O 4 ,
Co-coated γFe 2 O 3 , ferrite-based magnetic material, metal powder, etc. For example, Ba ferrite has a coercive force of 400
The Curie temperature is 300 ° C. or higher and 0 Oe or lower. The magnetic recording may be performed at a temperature slightly lower than the Curie temperature of the first recording medium, although other magnetic substances may be included in addition to the first and second magnetic substances.
【0015】図3は本発明に従って構成した磁気記録媒
体のFe−Al−Si合金ヘッドによる常温での記録電
流特性を示したものである。磁性体1に磁化できる磁束
が発生しないため、記録電流を増加しても磁性体2の記
録電流特性しか現れない。一方、図4は磁気ヘッドコア
にパーメンデュールを用いて記録を行った時の媒体の記
録電流特性を示したものである。図3の場合と異なり、
記録電流の増加により磁性体1も磁化される。しかし磁
性体1の保磁力と磁性体2の保磁力に大きな差がある場
合には2種の磁性体が存在していることは容易には観察
されない。また磁性体1が磁化できる記録電流で記録し
た場合には、その読み取り出力波形は磁性体1および磁
性体2の保磁力の関係、混合の比率により複雑に影響を
受け、変調した波形になる。以下、実施例により本発明
をさらに詳述する。FIG. 3 shows the recording current characteristics of a magnetic recording medium constructed according to the present invention at room temperature with an Fe-Al-Si alloy head. Since no magnetic flux that can be magnetized in the magnetic body 1 is generated, only the recording current characteristic of the magnetic body 2 appears even if the recording current is increased. On the other hand, FIG. 4 shows a recording current characteristic of a medium when recording is performed on a magnetic head core using permendur. Unlike the case of FIG.
As the recording current increases, the magnetic body 1 is also magnetized. However, when there is a large difference between the coercive force of the magnetic material 1 and the coercive force of the magnetic material 2, it is not easily observed that two types of magnetic materials exist. When recording is performed with a recording current that allows the magnetic body 1 to be magnetized, the read output waveform is complicatedly affected by the relationship between the coercive forces of the magnetic body 1 and the magnetic body 2 and the mixing ratio, resulting in a modulated waveform. Hereinafter, the present invention will be described in more detail with reference to Examples.
【0016】実施例1 組成SrO・5.6(Fe6.2/6 Cr4.2/6 Al1.6/6
O3 )よりなるフェライトAを作製し磁気測定したとこ
ろ、保磁力10.5kエルステッド、飽和磁化7.2e
mu/g、キュリー温度120℃であった。これに保磁
力3kエルステッド、飽和磁化55emu/g、キュリ
ー温度450℃のBaフェライトBを混合し、下に示す
組成の塗料を作製した。この塗料を厚さ250μmのポ
リエーテルイミドベースに厚さ10μmとなるよう塗布
し、カードの形状に打ち抜いた。 塗料組成 フェライトA 10.0重量部 フェライトB 10.0 分散剤 0.5 塩酢ビ樹脂 2.5 ウレタン樹脂 2.5 溶剤 30.0Example 1 Composition SrO.5.6 (Fe 6.2 / 6 Cr 4.2 / 6 Al 1.6 / 6
When ferrite A made of O 3 ) was prepared and subjected to magnetic measurement, the coercive force was 10.5 kOe and the saturation magnetization was 7.2 e.
mu / g and the Curie temperature were 120 ° C. This was mixed with Ba ferrite B having a coercive force of 3 k Oersted, a saturation magnetization of 55 emu / g, and a Curie temperature of 450 ° C. to prepare a paint having the composition shown below. This paint was applied to a polyetherimide base having a thickness of 250 μm so as to have a thickness of 10 μm, and punched into a card shape. Coating composition Ferrite A 10.0 parts by weight Ferrite B 10.0 Dispersant 0.5 PVC resin 2.5 Urethane resin 2.5 Solvent 30.0
【0017】このカードの記録電流特性をFe−Al−
Si合金磁気ヘッドを用いて測定したところ、図3と同
様の曲線が得られた。これは常温ではフェライトAには
Fe−Al−Si合金磁気ヘッドでは記録できないこと
を示している。またこのときのフェライトBへの最適記
録電流は250mAであった。The recording current characteristic of this card was changed to Fe-Al-
When measured using a Si alloy magnetic head, a curve similar to that of FIG. 3 was obtained. This indicates that recording cannot be performed on the ferrite A at room temperature with the Fe-Al-Si alloy magnetic head. At this time, the optimum recording current for the ferrite B was 250 mA.
【0018】実施例2 実施例1で用いたフェライトAを100℃で磁気測定し
たところ、保磁力は700エルステッドであった。また
実施例1で作製したカードがおおよそ100℃となるよ
う、実施例1で使用したカードリーダおよび雰囲気を工
夫して記録を行い、カードを常温にもどしてから読み取
りを行い記録電流特性を測定したところ、図5のような
曲線が得られた。フェライトAは約40mAで飽和する
記録電流値が設定できた。これはFe−Al−Si合金
磁気ヘッドでも加熱によりフェライトAに記録できるこ
とを示している。また40mAの記録電流ではフェライ
トBを磁化できないことは、図5および実施例1の測定
より明らかである。Example 2 When the ferrite A used in Example 1 was subjected to magnetic measurement at 100 ° C., the coercive force was 700 Oersted. In addition, recording was performed by devising the card reader and the atmosphere used in Example 1 so that the temperature of the card manufactured in Example 1 was approximately 100 ° C. After reading the card after returning to normal temperature, the recording current characteristics were measured. However, a curve as shown in FIG. 5 was obtained. For the ferrite A, a recording current value that saturates at about 40 mA could be set. This indicates that recording can be performed on the ferrite A by heating even with the Fe—Al—Si alloy magnetic head. It is clear from the measurements of FIG. 5 and Example 1 that the ferrite B cannot be magnetized with a recording current of 40 mA.
【0019】実施例3 実施例1で作製したカードを、パーメンデュールヘッド
を用いて記録電流特性を測定したところ図4と同様の曲
線が得られた。フェライトBは記録電流が約100mA
で飽和し、フェライトAは記録電流が約250mAまで
磁化されないことを示している。フェライトAは記録電
流が250mAを過ぎたところから徐々に磁化されるが
450mAまで記録電流を増加させても十分な飽和記録
はできず、その読み取り出力波形はフェライトAおよび
フェライトBの保磁力の差、混合の比率により複雑に影
響を受け、変調した出力波形になっていた。Example 3 The recording current characteristics of the card manufactured in Example 1 were measured using a Permendur head, and a curve similar to that shown in FIG. 4 was obtained. Ferrite B has a recording current of about 100 mA
, Indicating that the ferrite A is not magnetized until the recording current reaches about 250 mA. Ferrite A is gradually magnetized from the point where the recording current has passed 250 mA, but sufficient saturation recording cannot be performed even if the recording current is increased to 450 mA. The read output waveform shows the difference in the coercive force between ferrite A and ferrite B. The output waveform was modulated by the mixing ratio and was modulated.
【0020】実施例4 実施例1に用いたフェライトAの代わりにNd−Fe−
B系磁性体として、Nd16Cr6 Mn6 B7 Fe65を使
用し、これを平均粒径1.8μmに粉砕して磁気測定し
たところ保磁力6kエルステッド、飽和磁化55emu
/g、キュリー温度190℃であった。これを実施例1
と同様にフェライトBと混合し、カードを作製して電磁
変換特性を測定したところ、実施例1と同様の特性が得
られた。Example 4 In place of ferrite A used in Example 1, Nd—Fe—
Nd 16 Cr 6 Mn 6 B 7 Fe 65 was used as a B-based magnetic material, and this was pulverized to an average particle size of 1.8 μm and subjected to magnetic measurement.
/ G, Curie temperature 190 ° C. Example 1
When the card was prepared by mixing with ferrite B in the same manner as in Example 1 and the electromagnetic conversion characteristics were measured, the same characteristics as in Example 1 were obtained.
【0021】実施例5 実施例1に用いたフェライトAの代わりにSm−Co系
磁性体としてSm17Co39Ni44を使用し、これを平均
粒径1.9μmに粉砕して磁気測定したところ保磁力
6.3kエルステッド、飽和磁化20emu/g、キュ
リー温度195℃であった。これを実施例1と同様にフ
ェライトBと混合し、カードを作製して電磁変換特性を
測定したところ、実施例1と同様の特性が得られた。 実施例6 実施例1に用いたフェライトAの代わりに組成SmCo
2.9 Ni1.1 Bを使用し、これを平均粒径1.8μmに
粉砕して磁気測定したところ保磁力9kエルステッド、
飽和磁化13emu/g、キュリー温度160℃であっ
た。これを実施例1と同様にフェライトBと混合し、カ
ードを作製して電磁変換特性を測定したところ、実施例
1と同様の特性が得られた。Example 5 Instead of ferrite A used in Example 1, Sm 17 Co 39 Ni 44 was used as an Sm—Co-based magnetic material, which was ground to an average particle size of 1.9 μm and subjected to magnetic measurement. The coercive force was 6.3 kOersted, the saturation magnetization was 20 emu / g, and the Curie temperature was 195 ° C. This was mixed with ferrite B in the same manner as in Example 1 to produce a card, and the electromagnetic conversion characteristics were measured. As a result, the same characteristics as in Example 1 were obtained. Example 6 The composition SmCo was used in place of the ferrite A used in Example 1.
2.9 Ni 1.1 B was used, crushed to an average particle size of 1.8 μm, and subjected to magnetic measurement.
The saturation magnetization was 13 emu / g and the Curie temperature was 160 ° C. This was mixed with ferrite B in the same manner as in Example 1 to produce a card, and the electromagnetic conversion characteristics were measured. As a result, the same characteristics as in Example 1 were obtained.
【0022】[0022]
【発明の効果】以上に示した媒体および記録方法は、書
き込みヘッドの入手、磁性粉混合の判定、加熱書き込み
およびその条件設定が難しいため、極めて偽造困難な磁
気カードおよび記録方式を提供するものである。The medium and the recording method described above provide a magnetic card and a recording system which are extremely difficult to forge because it is difficult to obtain a write head, determine the mixing of magnetic powder, write by heating, and set the conditions. is there.
【図1】本発明の磁気記録体を磁気カードに用いた場合
の断面図である。FIG. 1 is a sectional view when a magnetic recording medium of the present invention is used for a magnetic card.
【図2】本発明に用いられる磁性体の保磁力と温度の関
係を示すグラフである。FIG. 2 is a graph showing a relationship between coercive force and temperature of a magnetic material used in the present invention.
【図3】本発明よりなる磁気記録体のFe−Al−Si
合金ヘッドによる常温での記録電流特性を示すグラフで
ある。FIG. 3 shows Fe—Al—Si of a magnetic recording medium according to the present invention.
5 is a graph showing recording current characteristics at room temperature by an alloy head.
【図4】本発明よりなる磁気記録体のパーメンデュール
ヘッドによる常温での記録電流特性を示すグラフであ
る。FIG. 4 is a graph showing recording current characteristics of a magnetic recording medium according to the present invention at room temperature by a Permendur head.
【図5】本発明よりなる磁気記録体のFe−Al−Si
合金ヘッドによる100℃雰囲気での記録電流特性。FIG. 5 shows Fe—Al—Si of a magnetic recording medium according to the present invention.
Recording current characteristics in a 100 ° C. atmosphere using an alloy head.
1 高保磁力、低キュリー温度の磁性体 2 低保磁力、高キュリー温度の磁性体 3 磁気記録層 4 基体 DESCRIPTION OF SYMBOLS 1 Magnetic substance with high coercive force and low Curie temperature 2 Magnetic substance with low coercive force and high Curie temperature 3 Magnetic recording layer 4 Substrate
───────────────────────────────────────────────────── フロントページの続き (72)発明者 米山 哲人 東京都中央区日本橋一丁目13番1号ティ ーディーケイ株式会社内 (72)発明者 茂呂 英治 東京都中央区日本橋一丁目13番1号ティ ーディーケイ株式会社内 (56)参考文献 特開 平3−100919(JP,A) 特開 昭57−20903(JP,A) 特開 昭50−85306(JP,A) 特開 平2−230511(JP,A) 特開 平2−270121(JP,A) 特開 平2−270122(JP,A) 特開 平3−93033(JP,A) (58)調査した分野(Int.Cl.7,DB名) G11B 5/80 B42D 15/10 G06K 19/06 G11B 5/706 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Tetsuto Yoneyama 1-1-13 Nihonbashi TDC Corporation, Chuo-ku, Tokyo (72) Inventor Eiji Moro 1-13-1 Nihonbashi 1-chome Nihonbashi, Chuo-ku, Tokyo (56) References JP-A-3-100919 (JP, A) JP-A-57-20903 (JP, A) JP-A-50-85306 (JP, A) JP-A-2-230511 (JP, A A) JP-A-2-270121 (JP, A) JP-A-2-270122 (JP, A) JP-A-3-93033 (JP, A) (58) Fields investigated (Int. Cl. 7 , DB name) ) G11B 5/80 B42D 15/10 G06K 19/06 G11B 5/706
Claims (11)
磁気記録体において、第一の磁性体の保磁力が第二の磁
性体よりも高く、かつ、第一の磁性体のキュリー温度が
第二の磁性体よりも低いことを特徴とする磁気記録体。1. A magnetic recording medium comprising a mixture of at least two magnetic materials, wherein the first magnetic material has a higher coercive force than the second magnetic material and the first magnetic material has a Curie temperature. A magnetic recording medium characterized by being lower than the second magnetic substance.
テッド以上である請求項1の磁気記録体。2. The magnetic recording medium according to claim 1, wherein the coercive force of the first magnetic material is 5000 Oe or more.
テッド以下である請求項1の磁気記録体。3. The magnetic recording medium according to claim 1, wherein the coercive force of the second magnetic material is 4000 Oersted or less.
以下である請求項1の磁気記録体。4. The Curie temperature of the first magnetic material is 200 ° C.
2. The magnetic recording medium according to claim 1, wherein:
以上である請求項1の磁気記録体。5. The Curie temperature of the second magnetic material is 300 ° C.
2. The magnetic recording medium according to claim 1, which is as described above.
フェライトよりなる請求項1の磁気記録体。 式 MeO・n[Fe2-x-y-z Gax Cry Alz O
3 ] (上記式中、Meは、Ba、Sr、PbおよびCaのう
ちの1種以上を表す。また、4.5≦n≦6、x≧0、
y≧0、z≧0、x/3+y/4+z/6≧1/6、x
/6+y/10+z/11≦1/6である。)6. The magnetic recording medium according to claim 1, wherein the first magnetic material comprises ferrite having a composition represented by the following formula. Wherein MeO · n [Fe 2-xyz Ga x Cr y Al z O
3 ] (In the above formula, Me represents one or more of Ba, Sr, Pb and Ca. Also, 4.5 ≦ n ≦ 6, x ≧ 0,
y ≧ 0, z ≧ 0, x / 3 + y / 4 + z / 6 ≧ 1/6, x
/ 6 + y / 10 + z / 11 ≦ 1 /. )
磁性体よりなる請求項1の磁気記録体。 式 Rx Fe100-x-y-z By Mz (上記式中、RはYを含む希土類元素の1種以上を表
す。また、MはTi、V、Zr、Cr、Mn、Nb、T
a、Hf、W、Mo、Ni、CuおよびZnの1種以上
である。また、x、yおよびzは原子百分率を表し、5
≦x≦30、2≦y≦30、3≦z≦35である。)7. The magnetic recording medium according to claim 1, wherein the first magnetic material comprises a magnetic material having a composition represented by the following formula. Wherein R x Fe 100-xyz B y M z ( the above formulas, R represents one or more rare earth elements including Y. Further, M is Ti, V, Zr, Cr, Mn, Nb, T
a, Hf, W, Mo, Ni, Cu and Zn. X, y and z each represent an atomic percentage, and 5
≦ x ≦ 30, 2 ≦ y ≦ 30, 3 ≦ z ≦ 35. )
磁性体よりなる請求項1の磁気記録体。 式 Smx Niy Co100-x-y (上記式中、xおよびyは原子百分率を表し、8≦x≦
25、30≦y≦70である。)8. The magnetic recording medium according to claim 1, wherein the first magnetic material comprises a magnetic material having a composition represented by the following formula. Wherein Sm x Ni y Co 100-xy ( In the formula, x and y represent atomic percent, 8 ≦ x ≦
25, 30 ≦ y ≦ 70. )
磁性体よりなる請求項1の磁気記録体。 式 R(Co1-x Nix )y Bz (上記式中、RはYを含む希土類元素の1種以上を表
す。また、0.05≦x≦0.5、1.8≦y≦5.
5、0.18≦z≦2.4である。)9. The magnetic recording medium according to claim 1, wherein the first magnetic material comprises a magnetic material having a composition represented by the following formula. Formula R (Co 1−x Ni x ) y B z (wherein R represents one or more rare earth elements including Y. Also, 0.05 ≦ x ≦ 0.5, 1.8 ≦ y ≦ 5.
5, 0.18 ≦ z ≦ 2.4. )
RとしてSmを50at%以上含有する請求項1の磁気
記録体。10. A magnetic material having the composition shown in claim 8,
2. The magnetic recording medium according to claim 1, wherein R contains 50 at% or more of Sm.
る磁気記録体において、第一の磁性体の保磁力が第二の
磁性体よりも高く、かつ、第一の磁性体のキュリー温度
が第二の磁性体よりも低い磁気記録体を使用し、第一の
磁性体のキュリー温度より低く且つ第一の磁性体の保磁
力が第二の磁性体よりも低下した温度雰囲気で第一の磁
性体に磁気記録を行うことを特徴とする記録方法。11. A magnetic recording medium comprising a mixture of at least two types of magnetic materials, wherein the first magnetic material has a higher coercive force than the second magnetic material and the first magnetic material has a Curie temperature. Using a magnetic recording material lower than the second magnetic material, the first magnetic material in a temperature atmosphere lower than the Curie temperature of the first magnetic material and in which the coercive force of the first magnetic material is lower than that of the second magnetic material. A recording method comprising performing magnetic recording on a magnetic material.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP3354070A JP3056864B2 (en) | 1991-12-19 | 1991-12-19 | Magnetic recording medium and recording method |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP3354070A JP3056864B2 (en) | 1991-12-19 | 1991-12-19 | Magnetic recording medium and recording method |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH05174360A JPH05174360A (en) | 1993-07-13 |
| JP3056864B2 true JP3056864B2 (en) | 2000-06-26 |
Family
ID=18435098
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP3354070A Expired - Lifetime JP3056864B2 (en) | 1991-12-19 | 1991-12-19 | Magnetic recording medium and recording method |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3056864B2 (en) |
-
1991
- 1991-12-19 JP JP3354070A patent/JP3056864B2/en not_active Expired - Lifetime
Also Published As
| Publication number | Publication date |
|---|---|
| JPH05174360A (en) | 1993-07-13 |
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