DE879545C - Manufacture of tantalum and niobium carbides - Google Patents

Description

Manufacture of Tantalum and Niobium Carbides The invention relates to a Process for the production of tantalum and / or niobium carbides by reducing melting of ores, metallurgical by-products or the like, which these metals as oxides or contain small amounts of oxidic compounds and slag-forming impurities in relatively large quantities, in the presence of excess coal.

The method of the present invention is great by using such a Amount of iron characterized that the formed tantalum niobium carbides in formed molten Suspended iron alloy can be accumulated, whereupon after separation from the Supernatant slag after cooling in a known manner by chemical extraction from which iron and other accompanying metals are separated. The reduction takes place preferably in an electric furnace, its crucible or stove in whole or in part is covered with coal. The melt obtained can, after comminution, for. B. with Sulfuric acid, as a result of which the taut al- and niobium carbides are separated.

It is known to use titanium carbides by heating titanium alloys Produce coal and the titanium carbides formed by acid treatment of the obtained Separate reaction mixture. -The knowledge of this procedure could not, however form the basis of the present working method, since the ones that come here for treatment Starting materials behave differently.

Also from the well-known carbide formation through carburization of Tautal and Niobium could not be concluded that these carbides would accumulate in an iron alloy would leave while preserving high carbon carbides.

It is known that tautal and niobium carbides are insoluble in iron; on the other hand, the melting point of these carbides is so high (about 3800 ° for tantalum carbide and about 26oo ° for niobium carbide) that no melting occurs in any stage of the process can be considered. It has been shown that during the reduction on the ground The melt deposited in the crucible consists of iron, which contains the carbides of the Tau valley and of the niobium in suspension.

This surprising fact leads to the conclusion that a metal can serve as a collector for carbides in the liquid state.

Tests have shown in accordance with this that the carbides are not in the molten state and that the iron is actually a collector can serve for carbides. It has been shown that when reducing a Tautal and niobium-containing slag containing an insufficient amount of iron were formed Carbides do not melt down, but in suspension in the reduced slag stay and this becomes doughy as a result.

However, the carbides are only deposited when the treated slag contains a sufficient amount of liquid iron.

The importance of the procedural mode of operation is evident from the following Considerations: If the carbonization is insufficient, iron-tantalum-niobium alloys are formed, which are difficult to attack by acids. Some of these alloys resist even aqua regia.

If the carbides formed could not or only incompletely be separated from the slag, one would be forced to undertake a chemical treatment of the slag which, in addition to the carbides, also contains the oxides Ca 0, Mg 0, A12 03, Si 02 and others. - This would make the extraction of these carbides extremely difficult, and it would also be very expensive if one wanted to produce pure carbides.

It should be noted that the process of the invention is based on ores and can even use slag with only a few tau and / or niobium content Percentages and which also contain impurities in such amounts, that the usual procedures are not applicable to such ores.

Knowledge of the formation of titanium carbide through carburization of titanium alloys could in no way allow any conclusion that the iron opposite the carbides that are insoluble in it could serve as collectors.

The process-based production of tautal and niobium carbides means a substantial improvement on what has been used to date to produce these carbides Way of working. So far, the production of tautal and niobium carbides has been used the metals in question or their oxides, i.e. substances that are considered the difficulty of keeping them in a sufficiently pure condition is extraordinary are costly.

The reduction treatment of oxidic raw materials containing tantalum and niobium can be carried out in any furnace, e.g. B. in an electric arc furnace, whose crucible consists partly or entirely of carbon.

The reaction melt obtained is crushed and then used for Separation of the tautal and niobium carbides extracted with acids. As a solvent Sulfuric acid has proven particularly useful for the accompanying metals. The at the Extraction as an insoluble residue remaining tautal and niobium carbides subjected to reprocessing for the purpose of cleaning.

For this purpose, the residue is slurried in water and the heavy carbides separated from the suspension by sedimentation. The deposition the carbide from the water suspension can also be used on shaker ovens or similar processing machines take place.

There is a likelihood that you are within the known Process, the molten iron containing coal in the required amount to add the carbide-forming metals as such, a substantial part of the metals, which are to be converted into carbides, can be replaced by their oxides. Provided no slag formation takes place, then those formed on the surface of the bath can Due to their high density, carbides sink in the molten iron.

Such a modification of the mentioned known method would thus be feasible under the condition that the pure oxides, which do not lead to Formation of slag capable substances are used. As soon as a formation of slag occurs, either before or at the time of reduction, then If the carbides do not sink, or only in an insignificant amount, they remain in suspension in the slag, which is always viscous, even when you are masses of fluxing agents adds. Under such conditions, therefore, becomes the familiar Method ineffective even in the aforementioned modification.

To give an example, below is the composition of one Slag listed as starting material for the purposes of the invention into consideration comes and which is not treated according to the known method mentioned -, could verden. (Ta + Nb) 20b. . . . . . . . . . . . . . . . . . . . . . . . . . 22,520 / 0 Ti02 .................................. 6, oo0 / ö Fe0. . . . . . . . . . ... . . . . . . . . . . . . . . . . . . . . . 2.16 ° / `o S'02 .................................. 2.80% A1203 .... ............................. 34.6 ° / 0 CaO + Mg0. . . . . . . . . . . . . . . . . . . . . . . . . . . 31.89% It it can be seen from this that this slag contains about 70% of substances which are to be slagged at the time of reduction. According to the findings of the invention the carbides formed in the slag during melting can only be clarified if if one assures a sufficient content of iron for this slag, and that from the beginning of the reduction.

Claims (2)

PATENT CLAIMS: r. Process for the production of tantalum and niobium carbides from tantalum and niobium-containing minerals or metallurgical products which contain slag-forming impurities in relatively large amounts, characterized in that essentially the total amount of tantalum and niobium compounds with reducing melting in the presence of a large excess of coal and a so large an amount of iron is converted into carbides that these are accumulated in the iron alloy formed at the same time and that they are separated therefrom by chemical means in a manner known per se. 2. The method according to claim z, characterized characterized in that the treatment takes place in an electric furnace, of which The crucible or stove is completely or partially covered with charcoal.