SU1657532A1 - Method of heat treatment of magnetic circuit sheet steel - Google Patents

Abstract

The invention relates to ferrous metallurgy, in particular to the heat treatment of electrical steel. In order to reduce the specific magnetic losses of non-doped electrical steel, a method has been proposed, which includes annealing at 700-950 ° C in a protective atmosphere, cooling to room temperature, shock treatment with cold in liquid nitrogen and re-annealing in a protective atmosphere at 700-900 ° A WITH. Cold striking can also be carried out directly from the primary heating temperature (700-900 ° C). The method allows to reduce the specific magnetic loss by 10-25% with a slight decrease in magnetic induction. 1 hp f-ly, 3 tab.

Description

The invention relates to metallurgy, in particular to the heat treatment of magnetic materials, and can be used in the heat treatment of unalloyed electrical steels.

The purpose of the invention is to reduce the specific magnetic losses in steel.

The proposed method of heat treatment includes annealing at 700–900 ° C in a protective atmosphere, cooling to room temperature, shock heat treatment in liquid nitrogen, and subsequent annealing in a protective atmosphere in the temperature range 700–900 ° C.

An additional reduction of the specific magnetic losses at a sufficiently high level of magnetic induction is achieved by conducting a cold shock treatment directly from the annealing temperature in the temperature range 700-900 ° C.

Example. To confirm the cold treatment efficiency from the primary annealing temperature (700-900 ° C), five batches of electrical unalloyed steel are taken from a semi-quenched deoxidation, from which four-strip samples are made for processing under various conditions. All samples of each batch are selected from one sheet. The initial data on the selected batches are given in table 1.

Samples cut out from sheets are subjected to certification annealing, cold treatment by immersion in liquid nitrogen from 20 ° C and re-annealing at 650.700, 750, 900 and 930 ° C in a protective medium containing 4-6% hydrogen, traces of oxygen, the rest is nitrogen. The data obtained are given in table 2,

Table 3 shows the results on the effect of cold treatment directly

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from 700-900 ° C with the subsequent annealing on the magnetic properties of electrical steel. The implementation of the proposed method allows to reduce losses by 10-15% as a result of annealing at 700-900 ° C in a protective atmosphere and an additional 25% when cold working from high temperatures with a slight (no more than 2%) decrease in induction.

Claims (2)

Claim 1. Method of heat treatment of magnetic core sheets, including annealing at 700–900 ° C in a protective atmosphere, cooling to room temperature, shock treatment with cold in liquid nitrogen, which is characterized by the fact that, in order to reduce magnetic losses, the metal is further annealed at 700–900 ° C in cold treatment protective atmosphere. 2. A method according to claim 1, characterized in that the cold treatment is carried out directly from the primary annealing temperature. Table 1 Table 3