DE818368C - Production of very low-inclusion steels in a basic electric furnace - Google Patents

Description

Manufacture of very low-inclusion steels in a basic electric furnace It is well known that the quality of every steel quality is determined by its content Inclusions, whether of an endogenous or exogenous nature, are decisively influenced will. The electric steel process that has been customary up to now is used in a basic electric arc furnace after the oxidation period a refining period for deoxidation and desulphurisation connected. As experience has shown, it does not work, in practice to produce completely inclusion-free steels.

The invention now relates to a method with which it is possible to reduce these inclusions to a previously unachievable minimum and thereby to achieve a substantial increase in the steel quality. In doing so, this extraordinary increase in the degree of purity without increasing the manufacturing costs while maintaining all the other known advantages of basic electrical steel melting achieved. In this way, it is possible to produce steels that meet particularly high requirements in terms of purity, as required in particular for ball bearing steels are.

The inventive method consists essentially in that In the electric furnace, the usual desulphurisation period is followed by a short fresh period the lively bath movement during freshening the oxidic Connections are raised. By boiling the steel just before the When tapping, there is also a noticeable degassing, so that there is a substantial reduction of the hydrogen occluded by the electrical steel is achieved.

With the methods that were customary up to now, extensive deposition was possible the inclusions do not occur, because during the refinement period there is no cooking movement.

As part of a scientific thesis on the composition the furnace atmosphere in the electric arc furnace and its influence on the nitrogen and The hydrogen content of the steel bath has already been tried to match the refining period in basic arc furnace to be followed by a refining period with the intention of Generate cooking gases and determine the hydrogen content of the molten steel from these. In this way of working, which was only used as an analytical device, but a further refinement period is connected to the boiling period. Through the with However, during this period of refinement, hydrogen again arrives in the bathroom. In addition, the inclusions are deposited in this way of working not possible because the last refinement period results in a calm bath, from which the (once suspended inclusion particles are not deposited can be.

According to the invention, the freshening is up to the attainment of the prescribed Carbon content. It is then alloyed and cut off.

Should have a phosphorus content in use for the second fresh process which, as expected, will not be removed by the short freshness period could be, so can a fresh period to remove the phosphorus after Melting must be carried out before the refining period.

For example, it becomes more common to practice the process Scrap used, melted down and at the same time refurbished and on top of it desulfurized with the help of a carbide slag. After desulfurization, the slag becomes completely withdrawn and the bath with the help of a conventional carburizing agent, for example Electrode meal or coke meal, carburized so far that its carbon content is around about 0.2 °! o carbon is higher than the desired carbon content in the end product, so z. B. with a desired carbon content in the finished product of o, 9 °, / o is set to i, io% C. Now a short time, about 15 minutes, will be through Adding oxidizing agents, such as ore or sinter, or by introducing oxygen refreshed again until the required final carbon content is reached. Thereon is alloyed, tapped and finally, for example by adding ferrochrome Ferrosilicon and an aluminum alloy are added to the pan. The last one Freshly formed oxide slag remains on the bath until it is tapped.

Claims (2)

PATENT CLAIM: i. Process for the production of very low inclusion Steels in the basic electric furnace, characterized in that the after the desulphurisation completely licked off bath over the one desired in the end product Carbon content also carburized with the usual additives and now up to Achieving the desired final carbon content by adding oxidizing agents Medium or refined by introducing oxygen, then alloyed and finally is tapped without prior purification. 2. The method according to claim i, characterized characterized in that the bath completely licked off after the desulfurization a carbon content is brought that is about 0.20 /, carbon higher, than it should be in the end product.