DE934834C - Process for the heat treatment of silicon steel - Google Patents

Description

Process for the heat treatment of silicon steel The invention relates to focuses on the heat treatment of silicon steels and in particular straightens up the heat treatment of silicon steel at high temperature.

Silicon steel in sheet or strip form is known to be heat-treated at high temperatures of 85o ° C and above in order not only to eliminate the rolling stresses, but also to improve the electrical properties of the steel. It is known to the person skilled in the art that with such a treatment difficulties arise in the storage of the hot silicon steel. The conveying elements and the steel are at a high temperature and the conveying elements, such as bearing rollers of conventional composition, tend to have material deposits from the steel accumulating on them which dent the sheet metal or strip running over the conveying elements. As the silicon content of the steel increases, the problem becomes all the more pressing. The phenomenon of the formation of deposits is complex and is also influenced by the tension of the strip running over the rolls, if the steel is in strip form, the composition and temperature of the furnace atmosphere and the properties of the roll surface. In the USA. Patent 1 95, 1 766 a solution is indicated, and that are heat-resistant inserts, z. B. made of silicon carbide, find use in the furnace conveyor elements that carry the workpiece running through the furnace. Although oxide coatings do not form on the silicon carbide inserts and such conveying elements for glowing sheets are satisfactory, it has been found that in heating furnaces for continuous tempering of strips at high temperature, where the strip runs around the rollers under tension, certain deposits occur even with silicon carbide inserts . In addition, heat-resistant inserts require considerable labor and costs.

Furnace conveyor elements with metal bodies have already been proposed been, which does not belong to the state of the art, on the the workpiece load-bearing parts have oxide coatings, which leads to the formation of deposits the conveying elements is prevented. Although such conveying elements prove to be satisfactory have shown, especially in highly oxidizing furnace atmospheres or in lower ones Areas of belt tension, an improvement was developed which has a wider Has scope. This prevents the formation of deposits without that it is necessary either silicon carbide inserts or conveying elements coated with oxide to be provided.

It was found that consisting of carbon and with the Parts of the conveying elements that come into contact with the workpiece have a suitable bearing result, have a satisfactory service life and do not absorb any deposits. It has also been found that the heat treatment of silicon steel at high temperature stored on coal during the heat treatment is effective and can be carried out advantageously and the carbon supporting the steel is long Has lifetime.

For example, if silicon steel is to be decarburized, it is preferred in sheet or strip form. Preferably it is continuous through an oven chamber drawn under decarburizing conditions, the chamber expediently a hydrogen-containing one Contains atmosphere and during at least part of the movement through the chamber has a temperature above 85o ° C. According to the invention, the tape is during his Movement through the chamber mounted on coal. The silicon steel strip is expedient Pulled continuously through the decarburization chamber via rotatable rollers, the Rollers have bearing surfaces made of carbon with which the belt during its Movement through the chamber in contact and by which it is carried. the Rollers can be provided with carbon surfaces, which interact with the belt in such a way that that only carbon comes into contact with it in the decarburization chamber. The reels can have surfaces made of either graphite or amorphous carbon, each of which has its own particular advantages. Graphite is more resistant to pressure and shear than amorphous carbon, is easier to work with and tougher against oxidation. Amorphous carbon has less wear and tear and less Price.

The carbon-containing, the workpiece-guiding surface of such Rolling outperforms those made of silicon carbide and also the oxide surfaces, which is the prevention the formation of deductions. The remain even with high belt tension In addition, the belts gripping surfaces are still smooth during operation, with their Smoothness is even somewhat improved and the surfaces are polished, one to behave completely opposite behavior of the other rollers.

Claims (1)

PATENT CLAIMS: i. Process for the heat treatment of silicon steel, in which the silicon steel is heated to a temperature above 85o ° C, thereby characterized in that the silicon steel during the heat treatment on carbon is stored. a. Method according to claim i for decarburizing silicon steel sheet, characterized in that the silicon steel sheet is replaced by a hydrogen-containing Atmosphere containing chamber at a temperature above 85o ° C for at least part of the movement and supported on carbon during this movement will. 3. The method according to claim i for the heat treatment of silicon steel strips, characterized in that the silicon steel strip is continuously passed through a chamber with a non-oxidizing atmosphere and at a temperature of over 8.5o ° C during performed at least part of the movement and on carbon during this movement is stored. q .. The method according to claim 3, characterized in that the silicon steel strip is pulled through the chamber over rollers provided with carbon surfaces in such a way that that it only comes into contact with carbon from its contact surfaces. 5. Procedure according to one of the preceding claims, characterized in that the silicon steel is stored on graphite or amorphous carbon.