DE2008191A1 - Process for the temporary reduction of the coercive force of permanently magnetizable material - Google Patents

Description

PHN.3919

Dipl ..-! Ng. HOPST ' UER

Akia: PHN- 3919
Registration dated: February 20, 1970

"Method for the temporary reduction of the coercive force of permanently magnetizable material".

The invention relates to a method for reducing the coercive force of magnetizable materials, which consists of the compound M_R, in which for M Co or a combination of Co with one or more of the Elements Fe, Ni and Cu and for R one or more of the rare earth elements and / or Th is substituted. In this context, the element yttrium is also counted among the rare earths.

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The intermetallic compounds M_R belong to a group of magnetizable materials with hexagonal Crystal structure and high uniaxial crystal anisotropy. They generally have a high coercive force (Η) and are suitable as a material for permanent magnet

nets with high energy product. This is known, for example, from "Journal of Applied Physics" J3j8, 1001 (1967), in which in particular it is described how the compounds mentioned can serve as material for powder magnets. In "Applied Physics Letters "J_2, 361 (1968) is described as this Connections can also be used as a material for cast magnets.

When magnetizing or demagnetizing powders and larger bodies of the above-mentioned compounds a problem arises that strong magnetic fields are generally required. These fields must have a have such strength that the coercive force is overcome which often means that they have to be much stronger than the coercive force. Especially in mass production this leads to problems.

The invention is based on the knowledge that measures can be taken by the during of the (demagnetization) process resulting from (demagnetization resisting coercive force may be low while after the (demagnetization has taken place has got back the desired higher value.

It should be noted that such measures are generally

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common - not limited to M_R material - there are advantageous where a material is magnetized or demagnetized must become. Because such measures will always have a cost-reducing effect because a weaker field is required is.

The knowledge mentioned is not new in itself. In the Dutch patent specification 105507 is mentioned Problem also recognized and to magnetize and demagnetize a magnet, which consists of the compound MnBi, is used as a measure to reduce the coercive force during the (de) magnetization is called a drop in temperature. These However, the measure remains with the relevant M_R materials unsuccessful.

The method of reducing the coercive force of the M_R connections mentioned is characterized according to the invention characterized in that the material is exposed to hydrogen gas under pressure.

It has been experimentally found that ever after increasing the hydrogen concentration in the material the coercive force decreases «Curve 1 in the graph shows the H value as a function of the hydrogen concentration, measured on the connection SmCo ».

Description of the experiment} By melting Co and Sm in a protective atmosphere SmCo obtained: this was then powdered. The powder was aligned in a magnetic field and then hydrostatically pressed into a block without binding agent. This The block was placed in a stainless steel tube.

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closed, in. which a hydrogen gas pressure up to 30 atmospheres can be sustained. Before each measurement, the block was placed in a pulse field with a strength magnetized by 100 kOe; Measurements were made with the aid of magnetic fields up to 17,000 Oe. Except for the coercive force the hydrogen pressure P was also measured as a puncture of the hydrogen content in the material (see curve 2 in FIG graphic representation). The measurements were carried out at room temperature.

The graph shows that a low hydrogen pressure already results in a significant reduction in the coercive force. The time during which the SmCo ₁ . the hydrogen has to be exposed to gas pressure so that the H value assumes its final value, depending on the pressure, took a few minutes to approx. 1 hour. At the same time it turned out that when the hydrogen gas pressure is removed again, the coercive force has regained its old value after approx. 1 hour; a reversible process.

The effect of the hydrogen gas pressure on the level of the coercive force has also been measured on other M_R-r materials than SmCo_. The results are shown in the table below (MM means a Ce-rich misch metal, the composition of which is 55 ^ a Ce, 26 $ La, Nd the remainder is a mixture of other rare earths).

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H _c (0e) originally after some
Minutes under one
Hydrogen gas pressure
of 30 at. Around 1 hour
after H "-pressure
is taken away 12000 400 1 2000 • SmCo_
5 16OOO 2000 I62OO GdCo _
5 660 150 700 YCo- 800 70 800 MMCo_

As already mentioned, this is according to the invention Method applicable to the mentioned M ^ R compounds both in powder form and in the form of larger bodies. Since one is powder metallurgical for many areas of application Using techniques, a preferred embodiment of the method according to the invention is characterized in that the material is pulverized before it is exposed to the hydrogen gas under pressure.

The method for reducing the coercive force is particularly for magnetizing or demagnetizing of the material concerned. According to the invention is a method for magnetizing or demagnetizing of these materials characterized in that during or immediately after the lowering of the coercive force With the aid of hydrogen under pressure, the material is brought into a magnetizing or demagnetizing field whose strength is such that the coercive force

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of the material is overcome.

That the magnetization or demagnetization as well immediately after the hydrogen gas pressure is removed, can be done is understandable when you consider that it takes about an hour before H is original Has regained value. This restoring of the original H value can, if necessary, still be achieved by cooling delay.

From the above by the method w th powder of the relevant M_r compounds magnetizable can be according to a further process of this invention, a permanent magnet prepared by, after the powder is magnetized, the "hydrogen pressure taken away and the powder is processed in a magnetic field to a magnetic body Due to the existing magnetic field, the powder particles are then directed parallel to one another with their preferred magnetic axes, whereby an optimally anisotropic permanent magnet is obtained.

The inventive method for reducing the coercive force is also used when recording or erasing magnetic recordings on a magnetizable Layer that contains the connection M_R as an essential component for the recording. With that namely the recording as well as the erasing can be carried out with a very weak field, while still the described If the layer has to be resistant to stronger demagnetizing fields, it is advantageous to use the to record and delete according to the method according to the invention,

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Claims (1)

PHN. 391-9 i.e., to allow these processes to occur in a recording layer which temporarily exhibits a decreased coercive force having. The invention further relates to permanently magnetizable material which consists of the compound MR, whose coercive force is reduced and which is optionally magnetized or demagnetized afterwards, both with
Help one of the inventive method. The invention further relates to permanent magnets, the constituent parts of which are essential for the magnetic properties, small particles from the relevant M_R compound and which are made with the aid of the invention
Process are produced. . - Finally, the invention also relates to magnetic recording devices which have been obtained with the aid of the method according to the invention. · ■■
Claims ; 1. Method for temporarily reducing the coercive force of permanently magnetizable material, which consists of the compound M_R in that for M Co or a combination of Co with one or more of the elements Fe, Ni and Cu and for R one or more of the rare earth elements and / or Th, characterized in that the material is exposed to hydrogen gas under pressure. 2. The method according to claim 1, characterized in that the material before it is the hydrogen gas under pressure is exposed, is powdered. . 0 0 98 4 0 / 12Δ1 PHN.3919 3 · Application of the method according to claim 1 or 2 in the magnetization of permanently magnetizable material, which consists of the compound M_R, characterized in that during or immediately after application of the method according to claim 1 or 2, the material is brought into a magnetic field
whose strength is such that the coercive force of the material is overcome. k. Application of the method according to claim 1 or 2 in the magnetization of the demagnetization of permanent magnetic material, which consists of the compound M_R, characterized in that during or immediately after application
of the method according to claim 1 or 2, the material is brought into a demagnetizing field, the strength of which is such
is that the coercive force of the material is overcome. 5. Application of the method according to claim 1 or 2 in the manufacture of a permanent magnet, the constituent of which is essential for the magnetic properties is small
Particles of the compound M_R are characterized in that after the M_R particles are magnetized according to claim 3, the hydrogen gas pressure is removed and the particles are processed into a magnetic body in a directing magnetic field. 6. Application of the method according to claim 1 or 2 when recording or erasing magnetic recordings
on a magnetizable layer which contains the compound M ^ R as an essential component for recording,
characterized in that during the recording or 009840/1241 PHN.3919 Deletion process the method according to claim 3 or claim k is applied. 7 · Permanently magnetizable material made from a Compound M_R exists, which is treated according to one of the methods according to claims 1 to k. 8. Permanent magnet, which according to the method according to claim 5 is made. 9 »A magnetic recording pattern obtained by the method of claim 6. 009840/1241 Blank page