SU76450A1 - Method for decarburizing metal sheets and tape - Google Patents

Description

In the practice of heat treatment of metals, heating of processed products is applied according to the method of LaGr.

This method consists in the fact that during the process of electrolysis of aqueous solutions of various salts, hydrogen is collected in the Hia cathode, enveloping the cathode in a gas jacket and creating a large transition resistance. As a result, the cathode, at a sufficiently large current density, is strongly heated. Heating products, VC. can be used as a cathode, lrk using the method of Lagrange-Hogo can be very significant.

A distinctive feature of ignition: according to this method, it is also the fact that on the left of the metal is actually produced in an atmosphere of hydrogen. It is known that hydrogen, especially humid, is a very active decarburizing agent. It is widely used in the production of transformer iron, which for watt loss should contain as little carbon as possible.

The process of annealing of an atoric iron transform in humid hydrogen is usually carried out at temperatures of about 900 ° C. Increasing the temperature in this case is desirable, because at a higher temperature, hydrogen decarbizes the metal faster.

According to the proposed method, the tape / steel to be decarburized is passed between the rollers 2, bending around the shaft 3 of conductive material, and the tape touching the shaft 3 should only be in one narrower section, as shown in the drawing.

From the bottom up, through a narrow slit formed, for example, by flattening the metal tube 4, the surface is continuously moving towards the surface of the decarburized tape / bore yutstryu liquid. This flat jet should be located at the tangent to the surface of the shaft 3, opposite the place where the tape touches the shaft.

The negative pole of the current source is connected to the shaft 3, and the positive pole to the tube 4.

As a liquid, a 10% solution of soda ash in water is used.

Including the current, it is possible to bring the temperature of the sheet (transformer and dynamo iron is 0.1-0.35 mm thick) to a narrow

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strip up to 1100 ° C or above. Since the heated portion of the metal will be surrounded by hydrogen, then the Hiairpierofi strip of the metal will be all: way to .. burning in a hydrogen atmosphere.

Heating of 5–1 L occurs at a time when the belt moves; its temperature can be accurately re-routed; - by changing the speed of the tape or the current in the circuit ....-.:. . . , ...

. The upper temperature limit for heating: ribbons will be determined only by the melting temperature of the decarburized metal, and the decarburization rate at that HIGH temperatures will be extremely high.

Thus, this proposal provides:

a) sequential bending of leites without the use of bulky hermetic stoves and without the danger of sticking the sheets together; inpouecc on the proposed method is continuous;

b) omnipotent. at the highest possible temperatures practically unattainable in conventional hermetic ovens with a hydrogen-filled working space; at such high temperatures, the growth of grains in the decarburized metal proceeds very quickly, which is an additional positive factor.

If during testing it turns out that one side of the tape is decarburized and the other is oxidized, it is possible to send a stream of inert gas (for example nitrogen) to the surface of the tape from the rear side of the tape. The inert gas can be replaced by sprinkling with any salt that could hang out with a flux.

At such high temperatures, hydrogen still penetrates easily and on the other side of the sheet.

Subject invention

Claims (2)

1. The method of decarburizing metal sheets or l; in particular, SHEET transformer and dynamo iron, is distinguished by the fact that n-heating of iron sheets or tapes is carried out according to the Lagrange-Hogo principle. 2. Acceptance of the drying method described in claim 1, differing from the point where the protective flux is applied to the iroBjepxHOCTb of a sheet or tape that is not subject to direct hydrogen exposure OR gas.