DE354219C - Process for producing nickel-rich iron alloys or pure nickel from nickel-poor iron alloys - Google Patents

Description

Process for the production of nickel-rich iron alloys or pure nickel from low-nickel iron alloys. The invention relates to a method for the production of nickel-rich iron alloys or pure nickel from low-nickel ones Iron alloys, especially chips containing nickel.

It is known to produce iron-nickel alloys directly from the raw materials, such as roasted nickel stone or nickel food, as well as in nickel steel processing falling hammer blows and roller sintering, which mainly consist of oxides of iron and small amounts of nickel oxide consist or should consist of reducing Produce smelting by taking the raw materials containing nickel and iron oxide under Supply of basic substances with sufficient for the reduction of the nickel oxide, but insufficient amount of carbon for the iron oxide present in addition to the nickel oxide be merged.

In another process, nickel steel with the raw materials just mentioned produce, these raw materials serve once as a fresh agent by adding to the Oxidation of the carbon and silicon contained in the pig iron, which is necessary for the oxygen supply, and then as a means of supplying nickel, whose oxide is more basic Reaction of the melt before the oxides of iron lose their oxygen.

These known processes deal with the manufacture of ferro-iron and nickel steel directly from raw materials through reducing melting.

The subject of the invention is a process for the extraction of nickel or ferronickel from an iron alloy poor in nickel, especially nickel steel shavings, and without a reduction process. The procedure is that the iron is partly or is completely oxidized, whereupon in a further operation at Presence of iron ferronickel can be produced. In the case of the Invention is therefore by oxidation of iron, for. B. of nickel-containing steel chips, Nickel or nickel-rich iron alloys obtained.

In the nickel steel chips, the iron is completely or partially, as already pointed out, transformed into oxide, while the nickel exist as a metal remains, so should not be oxidized. In this way the nickel turns into metallic Form separated from the raw material during the work process and excreted. This is technically feasible because the iron has a much greater affinity for oxygen has than the nickel. As long as metallic iron is still present during the oxidation process this is oxidized and not the nickel.

In practice, it is not advisable for security reasons To oxidize all iron, the process is therefore on an iron alloy rich in nickel set.

The oxidation can take place in a variety of ways, e.g. B.

i. by moistening with a rust-forming agent such as magnesium chloride, a. by heating in the air, 3. the .metallic iron of the chips is by supply completely or partially oxidized by air or pure oxygen, the heat of oxidation is driven so high that the mass is melted. This slags oxidized iron, while the nickel as such or in the form of an iron-nickel alloy is won.

In order to obtain the nickel or ferronickel, the mass obtained is used melted down without a reduction process, whereby the nickel or the nickel iron alloy as specifically heavier than the molten iron oxide settles on the ground.

The process can now be carried out in such a way that the oxygen compounds of iron are made in a special process and these compounds then melted down in a cupola furnace. The cupola only serves here as a melting apparatus, without using coal for reduction purposes, to a to carry out economic continuous operation.

The oxidation process is carried out so vigorously that through it developed heat melts the mass of nickel steel chips.

Claims (3)

] PATE NT CLAIMS: i. - \ 'experienced for the production of nickel-rich iron alloys or pure nickel from low-nickel iron alloys, in particular nickel-containing chips, characterized in that the iron contained in the nickel chips is partially or completely oxidized, with or after which the mass is melted down. a. Execution of the method according to claim i, characterized in that that the oxidation of the raw material (nickel shavings) formed by moistening with a rust Means such as chlorine magnesium, heating in air or supplying air will. 3. embodiment of the method according to claim i, characterized. that the metallic iron of the chips by supplying air or pure oxygen is completely or partially oxidized, whereby the heat of oxidation is driven so high that that the mass is melted, and the oxidized iron is slagged while the nickel is obtained as such or in the form of an iron-nickel alloy.