SU576598A1 - Method of manufacturing carriers for thermomagnetic recording - Google Patents

Description

one

The invention relates to the field of instrumentation and can be used as a method for the manufacture of a carrier used for thermomagnetic recording.

The known method of making a thermomagpate carrier, consisting of a transparent base and magnetic particles 1. To work with such a carrier, it is necessary to strictly adhere to a temperature close to the Curie point. Otherwise, the residual magnetization will be small, which will lead to a decrease in the reliability of the reproduced information.

Making the working layer less critical to a narrow temperature range entails definite difficulties, which significantly increases the cost of the carrier and its equipment 2.

The closest technical solution to the proposed invention is a method of manufacturing a thermal magpite recording medium based on the condensation in vacuum of vapor of an alloy of cobalt and platinum using the initially heated polycrystalline base and the thermal spraying process. subsequent cooling of the carrier. 3. Upon the creation of such a carrier, it appears that the technological production is quite difficult and economically

not always advisable. A costly carrier is also obtained.

In order to upgrade and upgrade the technological process and the carrier itself according to the proposed method, the base is heated to 50 ° C before sedimentation of the alloy, annealing is performed in a vacuum of 1 mm Hg. Art. at 30–60 min at 300–400 ° C, and cooling down to room temperature at a rate of 0.5–1 deg / min.

Example. The alloy is formed from 30 wt. % platinum and 70 wt. % cobalt. Formation of a prototype by condensation of alloy vapors in a vacuum, mm Hg. Art. on glass other bases, previously heated to 70 ° C. The evaporation rate from a tungsten crucible is 100 A / s. The annealing of iroplate is carried out in a vacuum of 1 mm Hg. Art. for 40 min at 340 ° C. Cooling is carried out at a rate of 0.7 K / min to room temperature.

With this heat treatment, the alloy is arranged and the carrier is able to maintain a single-domain state in the absence of a magnetic field. To.iLiuiiia active VKICTH carrier is about 600 A.

Isnollovances glass base and the described techiol (11 hours per minute cost of a thermomagnetic carrier.

Claims (3)

1. US patent No. 3522090, cl. 117-239, publ. 1970. 2. U.S. Patent No. 3,554,798, Cl. 117-235, published. 1971. 3. US patent No. 3554794, cl. 117-217, publ. 1971.