DE817370C - Magnetogram carrier - Google Patents

Description

Magnetogram carriers In magnetic sound recording, Recording media materials preferred, which are made of comminuted or powdered magnetizable Ingredients exist by $. B. a non-magnetic carrier with a coating is provided from the magnetizable material or by the carrier itself completely made from the powdered material using suitable binders will.

A difficulty in the manufacture of such recording media is that the evenness of the sound carrier often does not meet the requirements is enough and that the tensions that arise when picking up the sound are not sufficient are big when you go to narrow soundtracks.

It is known that magnetizable bodies are made of pyrophoric iron can be produced. Under pyrophoric iron is understood a material that on Due to the peculiar manufacturing process, a particularly high degree of fineness Has. The fact that the coercive force of a ferromagnetic decreases with Particle size increases has been known for a long time and forms the basis for production permanent magnetic body made of very finely divided iron, as in the pyrophores Iron is present. The magnetic sound recording technique is used for reasons An extremely finely distributed magnetizable material is required for uniformity. In accordance with the idea of the invention, pyrophoric iron is proposed for this purpose and thus a very special property of the same used for the production normal magnetic body is not required. Another inventive idea relates to establishing a coercive force suitable for sound recording purposes. The coercive force of the pyrophoric iron can be converted into wide limits, e.g. B. between iooo and ioo Orstedt, set. This attribute of pyrophoric iron is also essential to the invention. While with the usual magnetic bodies there is an endeavor, the coercive force To get as large as possible, one becomes the coercive force for the magnetic sound carrier choose so high that the recording can be erased with appropriate technical means can. If deletion of the recording is not requested, the original can be deleted very high coercive force maintained.

The heat treatment of pyrophoric iron for the stated purpose can be done in several ways. It can be related to the manufacturing process of the raw material can be connected, further, it can be applied to the powdery material. Finally, however, the heat treatment can also be carried out after it has been applied to the sound carrier take place.

The sound carrier can be pure pyrophoric iron or a magnetizable iron pyrophoric alloy, e.g. B. iron-cobalt alloy, or hold a compound ent, the most favorable values for the coercive force, remanence and Achieve permeability.

One advantage of the material treated according to the invention is, above all, that with otherwise the same conditions a higher output voltage than the previous one materials used, e.g. B. magnetite, can be achieved. Also is the evenness of the sound carrier due to the extraordinarily fine grain of the pyrophoric iron very good. This reduces the noise during the scan and it is possible to to achieve satisfactory results even with a very thin layer. The material leaves. also extremely evenly and intimately with a compound or mix a filler material.

Two embodiments for magnetic sound carriers according to the invention are described in more detail below.

The pyrophoric iron is z. B. produced in the usual way and then subjected to a heat treatment, e.g. B. 2 hours at 400 °. After treatment the material has a coercive force of 400 Orstedt and a remanence in the pressed Condition of 5,000 Gauss. The iron is mixed with a compound in the form of lacquer and poured onto a strip of plastic or paper. The tape will be like used in common magnetic recorders. In another embodiment is the pyrophoric iron with a compound, z. B. polivinyl chloride, im 2: 1 ratio mixed. After thorough working through, the mixture is turned into a Press introduced and pressed under pressure to form a round flat plate. The plate, which has the diameter and thickness of a normal record is used in this Form used as a magnetic sound carrier.

Claims (7)

PATENT CLAIMS: i. Magnetic sound carrier made of fine-grain, magnetizable material, characterized in that the sound carrier is produced using poryphoric iron, the coercive force of which is expediently brought to the desired value by an additional treatment. 2. magnetic sound carrier according to claim i, characterized characterized in that the pyrophoric iron is thermally aftertreated. 3. Magnetic sound carrier according to claim i or 2, characterized in that the sound carrier is pure pyrophoric Contains iron. 4. magnetic sound carrier according to claim i to 3, characterized in that that the sound carrier is a pyrophoric iron alloy, preferably an iron-cobalt alloy contains. 5. A method for producing a sound carrier according to claim i, characterized characterized in that the additional treatment prior to the final shaping of the Gate carrier takes place. 6. A method for producing a sound carrier according to claim i, characterized in that the additional treatment in the preparation of the Pyrophoric iron is made. 7. A method for producing a sound carrier according to claim i, characterized in that the additional treatment is carried out on the finished molded sound carrier or during the shaping of the same. Cited publications: German patent specifications No. 712 457, 675 49o.