DE316938C - - Google Patents

Description

The present invention relates to the manufacture of mild iron and steel and aims an advantageous implementation of the deoxidation process. This happens to the According to the invention in that carbohydrates are used as deoxidizing agents. It has been shown that the addition of carbohydrates to the oxygen-rich iron baths even when using very small amounts

ίο the carbohydrates for complete deoxidation of mild iron and steel is sufficient, due to the small amount of added Carbohydrates the hardening remains completely within the usual range. The carbohydrates work in the case of introduction into an oxygen-containing iron bath initially directly, but then and to a particularly high degree by the Carbon in statu nascendi indirectly and have, as the experiments carried out have shown have led to a complete reduction of oxygen in all cases. The material produced was of excellent quality and exhibited excellent quality Properties in further processing.

In particular, very soft fluent iron could also be obtained in a previously unknown quality will.

It goes without saying that one also uses substances instead of the carbohydrates themselves which are very high in carbohydrates. It is also obvious that one the deoxidation process for manganese steels can carry out with carbohydrates and afterwards add the manganese carriers in a known manner to enrich the bath can.

Another particular advantage of the carbohydrate deoxidation process is that that desulphurisation of the bath goes hand in hand with deoxidation. This is true to a certain extent in the case of deoxidation by ferrous. manganese is the case, but when using manganese as a deoxidizer, the sulfur content, e.g. B. at the Tho- .mas method, to about 0.04 percent. By using carbohydrates as a deoxidizer it has been possible to keep the sulfur content down to about 0.02 percent bring down. .

For the purpose of deoxidizing mild iron and steel baths, the ■ different bodies, which in chemistry are called carbohydrates can be used with the same success in terms of the effect. So are sugars Starch and cellulose and substances containing them as ingredients have been used with success been. The purer the carbohydrates, the more intense the effect and the less ■ the consumption with the same effect. When using sugar z. B. 2.5 kg on 1000 kg of steel for complete deoxidation; the same consumption resulted from starch. In the case of cellulose carriers, such as. B. wood wool, the consumption rose to 4 to 5 kg

per thousand pounds of steel. The carbohydrates will be appropriately used in a more or less finely divided state, for example the cellulose in the form of wood wool, wood shavings and sawdust. The addition is expediently done in such a way that one enters the Carbohydrate packs of carbohydrate packs into pan while pouring the mild steel or steel throws in the required amount, for example when using "wood wool or the like. Packs weighing from 8 to 10 kg. The deoxidation is practically ended in normal operation as soon as the bath is in the Pan is cut off. The prerequisite for the success of the procedure is that the application of the carbohydrates takes place under conditions under which the re-uptake of oxygen by the bath does not occur Question comes. Treatment of liquid, oxygen-rich iron with carbohydrates must therefore go ahead after purification has taken place.

This is a fundamental difference to the introductory procedure a previously known process in which iron baths, which still contain all of the impurities, such as silicon, phosphorus, sulfur, carbon and manganese, and are covered with a layer of slag, by introducing wooden blocks into the bathroom to get a

. To bring about cleaning of the bath. In this previously known method there is an intimate penetration 'of the mass of the bath with the oxygen-containing slag and onto this. This means that the impurities can be eliminated without the bath being able to become enriched with oxygen at all, since the carbon of the wooden block in the bath prevents any formation of iron oxide. The normal advantage of the Martin process, however, of bringing about the cleaning by means of a static layer of slag while avoiding any slag transfer into the bath, is lost. In contrast, the method described above, in that the treatment with ■ carbohydrates and optionally with wood: oxygen-rich baths are subjected, ie baths which have already been freed of their impurities by suitable treatment, be it in the Martin or Thomas process, and thereby become rich in oxygen, avoiding any possibility of slag uptake by the bath; the implementation of the process is also made much easier in that not, as in the previously known method, wooden blocks in ^; the bathroom must be kept in order to

to bring about the boiling movement "and intimate mixing with the slag, ; but that it is sufficient only when tapping the slag-free, oxygen-rich bath ; treat with carbohydrates.

j In the case of the previously mentioned method, the introduction of wood the formation of oxygen-rich baths avoided, while in the process according to of this invention the normally obtained oxygen-rich baths. by Carbohydrates are deoxidized.

Claims (1)

Patent claim: Process for the production of · fluoro iron and steel by deoxidation oxygen-rich baths, characterized in that the deoxidation of the iron bath is done by carbohydrates.