SU1441344A1 - Method of manufacturing a magnetic record carrier - Google Patents

Abstract

The invention relates to a method for manufacturing a magnetic information recording medium and allows increasing the wear resistance of the carrier and forming a carrier with a mosaic structure of the working coating of the carrier. On a non-ferromagnetic carrier base, a ferromagnetic nickel-phosphorus working coating is formed by deposition. Shaded carrier is subjected to heating with a beam focused heat flux in a temperature interval of 280-320 0. 1 Cp. f-ly.

Description

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The invention relates to instrument engineering and can be used as a method for manufacturing a magnetic information recording carrier. The purpose of the invention is to increase the durability of the carrier and the formation of a carrier with a mosaic structure of the working coating.

The method is carried out as follows.

Chemical non-ferromagnetic nickel-phosphorus working coating is chemically deposited on a non-ferromagnetic carrier substrate, which is heated by a beam-focused heat flux in a temperature range of 280-320 in places needed to obtain ferromagnetic regions with high hardness. Example. As a non-ferromagnetic base, copper plates 0.1 mm thick are used. Before coating, the surfaces of the plates are degreased and etched in known solutions. At the same time, a solution is prepared for chemical nickel plating of the following composition, g:

Sulphate

nickel (NiS04) 20-25

Sodium acetate (CHjCOONa-7Hj, 0) 10

Thiourea (H NCSNH) 0.01

Hypophosphite sodium

ten

() Acetic acid (СНзСОН), ml Nickel-phosphorus coating 10 microns thick on prepared copper

1-2

plasters are obtained in the specified solution with acidity, 8 at a solution temperature of 85 - 92 s. With a thin neodymium laser, lines are drawn on the resulting coating. The temperature at the places of heating is raised above the transition temperature to the ferromagnetic state. To visualize the ferromagnetic regions, the plates are placed in the magnetic field of a permanent electromagnet, followed by dipping in a suspension containing, g; Powder of magnetic iron oxide (ResO) 2 Powder Lotus 2.5 Water, l0,5

Claims (2)

1. A method of manufacturing a magnetic information recording medium, including preparing the surface of a non-ferromagnetic carrier base and depositing a working coating, characterized in that, in order to improve the durability of the Media, chemical deposition of a non-ferromagnetic nickel-phosphorus working coating is carried out on the basis, 1} After which it is subjected to heating in the temperature range of 280-320 ° C. 2. A method according to claim 1, characterized in that, in order to form a carrier with a mosaic structure of the working coating, the carrier is subjected to heating by a beam focused heat flux.