DE712457C - Magnetogram carrier - Google Patents

Description

Magnetogram carrier It has been found that magnetizable, hydroxide-free Metal oxides for those made of magnetizable substances in fine distribution on or in A magnetogram carrier consisting of a non-magnetic carrier material is very suitable are. In particular, the oxides Fes 04 and y-Fe2 03 come into consideration. A suitable one Process for the production of the oxides in a very finely divided state consists in the Decomposition of metal complex salts, e.g. B. iron amnmon salts, or complex metal compounds, which contain organic residues such as pyridine. The decomposition of the complex compounds advantageously takes place in the liquid phase, - preferably in solution; and if possible fast. The decomposition can also be seen in the non-magnetic carrier mass, the binding or ante% agent itself, before or after the potting of the mass to; a film make.

The technical progress achieved by the invention is evident from the following: For accurate reproduction of.

Speech and music require the speed of the phonetic transcription carrier of about t m per second. . As is well known, the needs of practice are to reduce the running speed significantly. This is supposed to be "the length of the Recording medium saved or longer recordings and playbacks without Interruption are enabled; furthermore, the same speed should be used as in the case of photo film, audio image carriers and slide carriers are direct to be able to couple to a sound film. In everything, the Toriwiederga @ be should be natural be. It must therefore include frequencies from around 7,000 to 10,000 Hertz and even the finest details of the sound oscillation curve can be reproduced.

It has been shown that these known requirements meet the requirements of the invention to a high degree correspond to the oxides to be used. This is likely to happen in the first place the extraordinary fineness and the very high uniformity of the particle size constitute the cause. It is possible, for example, the magnetic material according to Irrfindung with a particle size of 1-A000 mm and below in the pennant carrier to bring in what with the substances proposed so far for the present purposes either not possible at all or only with difficulty. The magnetic Properties of the oxides, especially theirs Induction and remanence at low field strengths, are favorable for use as phonetic carriers. The high coercive force ensures a good durability of the sound recording.

Iron oxide obtainable by burning iron carbonyl can also be considered as a magnetizable substance, if necessary after a pretreatment, in particular in order to bring the oxygen content to the iron content in a suitable ratio. B @ eispi-el i Air is blown into an aqueous solution of tetrapyridine ferrochloride. Colloidal y-Fe falls. 0s + H., 0 off. This is cleaned by decanting and then suctioned off. "-Fe., 03 " is obtained in highly dispersed form by heating to 150 ' in a dried air stream. The oxide is then made into a paste with a solution of acetyl cellulose in acetone and the emulsion is applied to an acetyl cellulose film using a film casting machine. Example 2 A solution of 208 parts of ferrous sulfate and 25.3 parts of potassium nitrate in 800 parts of water are heated to 80 °, and 43.5 parts of ammonia in the form of 200% aqueous ammonia solution are gradually introduced into the solution, which separates in extremely fine distribution The precipitate is allowed to settle out, separated from the mother liquor, washed with warm water until the wash water is free of trolyte, and then dried at low temperature, expediently in vacuo A powder consisting of iron oxide is made into a paste with acetyl cellulose and applied to a carrier tape carrier.

Instead of drying, the water can also be displaced by acetone after the precipitate has been washed out and the acetone-moist mass can be made into a paste with acetyl cellulose lacquer. Example 3 To a solution of 100 parts of iron chloride (Fe Cl, + 4 H-O) in 430 parts of water, a small amount of aluminum chloride corresponding to about 0.5% of aluminum is added. The solution is then treated in the cold with a milk of lime obtained by boiling 28 parts of calcium oxide in 100 parts of water, heated to the boil with stirring and then mixed with 7.3 parts of nitrobenzene. It is then refluxed for another hour and then acidified with acetic acid. The resulting black precipitate settles out easily. It is decanted, washed free of electrolytes with water and then dried. The very even and extremely fine black powder is processed into a phonetic carrier tape as described above. Example 4 8 parts of iron carbonate (Fe C O3) are suspended in a solution of 20 parts of potassium hydroxide in 12.5 parts of water and boiled until the suspension is complete. turned black. The liquid is then poured into zoo parts of cold water and filtered off from the precipitate. The remaining black, finely divided powder is washed with water until the alkaline reaction of the washing water disappears. After drying, it is ideal for processing on phonetic carriers.

Claims (2)

PATENT CLAIMS: i. Magnetogram carrier, consisting of magnetisierharem -Material in a finely divided state on or in a non-magnetic carrier material, characterized by the use of magnetizable, hydroxide-free metal oxides. . 2. magnetogram carrier according to claim i, characterized by the use of metal oxides obtained by the decomposition of metal complex compounds.