DE947170C - Process for cleaning steel melts by treating the melts with easily liquid, metal oxide-free acidic slags - Google Patents

Description

Process for cleaning molten steel by treating the molten metal with easily liquid, metal oxide-free acidic slag It is known that the Steel bath. by introducing meta, lloxyd-free, especially low-viscosity, acidic ones Slag is considerable due to its tendency to form ice @ e-noxydulsi: likaten Amounts of iron oxide withdrawn. will. To speed up this process, the liquid slag is not brought onto the bath, but is intimately mixed with the metal. This diffusion deoxidation takes place practically in such a way that the steel from large Height is tipped into a vessel in which the appropriate liquid slag is located. The iron oxide becomes, according to the equilibrium, among other impurities of the steel. In this process, the falling steel jet sucks, the surface of which is oxidized by the oxygen in the air, making air into the emulsion. Oxygen, nitrogen and possibly also hydrogen taken up by the steel bath "earth. So these are harmful side reactions. One achieves well With the help of this process a deoxidation. But the steel still possesses does not have the properties of high quality, because harmful gases, such as nitrogen and hydrogen, lag behind. But it is known that dissolved gases from a steel melt can be removed by introducing carbon dioxide. W211 one now, oxygen- and. To produce low-gas steel, treatment with carbon oxide must first be made. The steel is consequently cooled and the reactivity the slag with the iron oxide dissolved in the steel or with the impurities strongly degraded.

According to the invention, the deoxidation and degassing in one Operation carried out with elimination of harmful side reactions.

The new process is based on the fact that with the aid of nitrogen-free, but at least nitrogen-poor, non-oxidizing; acting Gaseau, especially of reducing gases, for example wense with carbon oxide or reducing. Acting gas containing carbon dioxide, as it occurs in the production of electric iron with up to 82 % CO, or from a generator gas that is generated with oxygen., substances are blown in at the same time, which are primarily made up of alkalis, fluorides, silica, lime, alumina and titanic acid is composed. However, these must optionally be coordinated with one another in such a way that they would result in a slightly melting acidic slag. The deoxidation process is favored if the melting point of the slag is as low as possible below the temperature of the liquid steel. The impurities in the steel bath. then react very quickly with the slag. The finely ground slagging components must be intimately mixed with one another. One can. they are also cemented with a carbon-containing or cement-like binder and then give up the substances that have solidified with one another in the form of small particles, so that any segregation is avoided during the breakdown. However, it is also advisable to melt the slag formers together, for example in apparatus heated with gas, in order to then blow the resulting slag into the steel structure after fine grinding.

But you can also use slag instead of diffusion deoxidation Precipitation: deoxidation with ferromanganese, ferrosilicon, ferrotan, calcium: silicon, Alsical or similar alloys or with light metals. It is advantageous, the diffusion deoxidation with the precipitation deoxidation in the way to combine so that the finely ground slag components or the melted slag components finely ground slag with alloys brought into powder form in the above Senses mixed in appropriate proportions or solidified with one another will.

As a carrier gas for introducing the deoxidizer into the steel melt As already mentioned, a nitrogen-free or low-nitrogen one does not serve oxidizing or reducing gas, especially carbon oxide or high carbon oxide Gas. In this way, nitrogen and hydrogen are at the same time considerable Dimensions removed from the steel melt. The oxidizing influence of the air will: continue turned off when looking at the surface of the molten steel before and during the blowing acted upon by a gas that has the properties of the carrier gas. One can but also this gas - known as cushion gas - is loaded with deoxidizing agents. These are absorbed by the bath due to the turbulence caused by the lifting gas. and also have a positive effect on the cleaning work of the steel. Therefore can you can also let the deoxidation agent with the cushion gas act alone and blow . at the same time as the lifting gas described above without deoxidation devices. That. The steel bath should be made free of slag as far as possible before the treatment. To this Weisier succeeds in deoxidizing the steel and removing harmful ones at the same time To liberate gases with the elimination of oxidizing side reactions. Included It is noteworthy that the steel bath., especially in the presence of fluorides or titanium acid, is desulphurized.

However, in order to eliminate any harmful influence of E., it is necessary to to dry the gas. It is also recommended., The deoxidizer and the Preheat gas.

Application of the invention results in high quality steel with savings of manganese. The new process can be used in all, metallurgical furnaces, and in carried out the steel ladle, namely for pre- and ready-deoxyda.tion or for Deoxidation alone.

Claims (3)

PATENT CLAIMS: i. Process for cleaning molten steel by Treating the melts with low-viscosity, acidic slag free from metal oxide, characterized in that solid, viscous varnishes that are thin in the melt result in: Substances, e.g. B. silica mixed with lime, clay, alkalis, fluorides and Titanic acid, through a low-nitrogen, indifferent or reducing effect Gas; in particular: -besond @ ere a carbon-oxide-containing gas or carbon oxide alone, in the Melt are blown. 2. The method according to claim i, characterized in that that with the easily liquid acidic slag in the molten steel resulting substances known together metallic des: oxidizing agents, z. B. Ferromanganese, Ferros: silicon, Ferrotitanium or aluminum, are blown into the melt. 3. The method according to claims i and 2, characterized in that shortly before or during the blowing in of the gas. and solid substances according to claims i and 2, a gas of the same or similar composition with or without the addition of these solid substances is passed onto the surface of the melt q .. Process according to claims i and a, characterized in that shortly before and during the blowing in only from gas one. Gas of the same or similar composition as the solid. Substances according to claims i and: 2 is passed onto the surface of the melt. Documents considered: German Patent No. 299,439; USA. Patent Nos. 1,949 73i, 1968 9i7.