DE393999C - Process for producing low-carbon and low-silicon chromium alloys or chromium - Google Patents

Description

Process, low-carbon and low-silicon chromium alloys or chromium to manufacture. The present invention relates to a method, carbon and Low-silicon chromium alloys, especially those whose carbon content is very high is low, or manufacture chrome metal.

The process consists essentially in the fact that a silicon-rich Chromium alloy with more than ten percent silicon in the molten state simultaneous action of free satier stuff, e.g. in a well-known per se Wise in the form of air and substances that contain oxygen compounds of chromium, is exposed. If the silicon-rich chromium alloy to be oxidized, practical taken, contains only silicon and chromium, and if those otherwise added to the process Substances no other compounds that can be reducible with silicon than chromium-oxygen compounds the product will of course be made of chrome metal.

According to the invention, the oxidation is thus by the action of free oxygen and the simultaneous action of substances that oxygen chromium contain binding, z. B. chrome ore causes.

When oxidizing a silicon-chromium alloy finitely only free oxygen, z ,. B. in the form of air, the d'esilimerte product contains less in absolute terms Chromium metal as the originally charged silicon-rich alloy, as it is not is possible to prevent chromium from being oxidized. When a silicon chromium alloy is oxidized with only oxygen chromium compounds, e.g. - contains chromium oxide, in the form of chromium ore the desilicated product has more chrome metal than the originally charged chrome alloy. The first of these processes is strongly exotic, the last is endothermic. By combining these two processes according to the invention, one can through expedient Adjustment of the proportions between the two oxidizing agents gain the advantage, that the process receives an exothermic course and at the same time the end product - in absolute terms - contains more chromium than the process in the form of silicon-rich Chromium alloy was fed. In addition, there is any risk of carbon uptake from the outside during the oxidation process is completely excluded, which is practical taken is not possible if the oxidation only by means of oxygen chromium compounds is performed.

To illustrate the invention, the following is an example Representation of ferrochrome according to the present invention described by Bessemerierung will.

Fused silicon chromium iron (silicon ferrochrome) produced in any way is introduced into a converter suitable for the purpose. This alloy is, if the silicon The higher the silicon content, the lower the carbon content. Blown air under a suitable pressure is blown in through holes expediently arranged and expediently drained in the converter feeding and the converter is pushed into such a position that the blower air is forced through the existing in the converter. molten alloy to pass through. The silicon and chromium present in the alloy are oxidized by the oxygen present in the blower. As long as the silicon content of the improved alloy is still comparatively high, the oxidation of chromium is comparatively insignificant, but it increases with decreasing silicon content. The oxidation by means of free oxygen increases the temperature of the converter contents. During the Bessemerierung or possibly during the interruption of the Besseinerierung a suitable amount of chrome ore (and possibly also suitable flux) is gradually fed to the converter, which is brought into a molten state by the heat generated in the converter and forms a ctu-omoxvdreiclie silicate slag in the converter. Chromium is reduced from this slag by the action of silicon from the improved alloy, which is incorporated into the alloy and replaces the chromium in it (which may have been oxidized by the action of free oxygen. The process is continued until the silicon gelates the alloy present in the converter has been removed to the desired extent, after which the contents of the converter, which consists of carbon and silicon poor ferrocliromium and a relatively chromium-rich slag, are tapped in a known manner. The slag obtained as a by-product can be used as raw material for the preparation of Silicium dough iron can be used.

Under your expression @) Cliroinlegieriiiig-t <is in the description and in claim not to understand me an alloy of chromium with heavy M (: - tallen, but also compounds or solutions of chromium with carbon, silicon or similar substances, such as chromium carbide, chromium silicide, double carbide made from iron and chromium inter alia, and finally also a solution of the latter in chromium or other metal.

Claims (1)

PA1-7r \ T-ANsPRUcI3 Process, carbon- and silicon-pure chromium alloys or chromium metal, using a molten silicon chromium alloy, which contains more than 10 percent silicon, e.g. B. in an Iionv erterofen, the oxidizing Exposure to free oxygen, e.g. 13. in the form of air, is exposed, thereby characterized that glass in question -material also at the same time the action of Substances that contain oxygen chroin compounds, e.g. B. chrome ore exposed will.