SU436583A1 - Method of thermal treatmant of components made of hard-magnetic alloys - Google Patents

Description

(54) METHOD FOR THERMAL TREATMENT OF PRODUCTS FROM MAGNETIT-HARD ALLOYS

one

The invention relates to the field of heat treatment of products made of magnetic alloys.

The known method of heat treatment and products of magnetically hard alloys, including heating, cooling, tempering, and processing in a magnetic field. However, the known method does not provide products with given magnetic and non-magnetic portions. IQ

The aim of the invention is to obtain predetermined magnetic and non-magnetic areas in the articles. This is achieved by the fact that products from iron-cobalt-chromium and iron-cobalt-vanadium base alloys are first heated and cooled to obtain a magnetic structure, and then the predetermined portions are locally heated and cooled to obtain a nonmagnetic structure.

The essence of the invention lies in the fact that jo in some hard magnetic alloys. For example, on a iron-cobalt-chrome base, depending on the heating temperature and the conditions of subsequent o-cooling, it is possible to obtain either a non-magnetic (facetri-

or magnetic (body-centered) structure, which, after treatment in a magnetic field, gives the alloy the properties of a flux magnet.

Example 1. A product made of an alloy containing, “b: carbon 0.025, cobalt37, 7; chromium 13.5; Vanadium 0.35; manganese 0.29; silicon 0.16; sulfur 0, OO5; phosphorus O, HBV; the rest of the iron is heated to 1175 C, creating a body-volume {5-D structure in it, and this structure is fixed by cooling in water. Then the required areas are subjected to local. heating to 800 ° C and cooling in air obtain a face-centered and hexo-gonal structure in these areas. Further, the product will be placed in a magnetic field, and areas that have not been subjected to local heating acquire the properties of a permanent magnet.

PRI mme R 2. A product made of an alloy containing,%: carbon 0.45%; cobalt 29.5; chromium 11.8; Vanadium 0.39; manganese 0.32; silicon 0.20; sulfur O.OOZ; Aosporus 0.00.8; the rest of the iron is heated up, giving it a volume-centered structure, and this structure is fixed by air cooling. Then the required areas are subjected to local heating, for example, industrial or high frequency currents, up to 1175 ° C and these areas are cooled to water or air and they are non-magnetic with a face-centered and hexagonal structure. Far products are placed in a magnetic field, and areas that have not undergone local heating acquire the properties of a permanent magnet.

Claims (3)

1. A method for the heat treatment of articles made of magnetically hard alloys, including heating, cooling and processing in a magnetic field, characterized in that. that, in order to obtain on the iron-cobalt-chromium and iron-cobalt-vanadium bases of alloys on predetermined magnetic and non-magnetic areas, this product is first heated and cooled to obtain a magnetic structure, and then the given areas are locally heated and o.ch. to obtain a non-magnetic structure; 2. Method by clause 1, that is, that products made from alloys containing less than O, 03% carbon are first heated to 1175 ° C and cooled in water, and then the given areas are locally heated to 8OO C and cool, 3. The method according to claim 1, of which is made of alloys, containing carbon. First, heating o, 3-o, i: " are poured before and cooled in air as well. then the given areas are locally heated ABOUT to 1175 C and cool.