DE581013C - Cathode material for the generation of easily removable metal deposits - Google Patents

Description

Cathode material for generating easily removable metal deposits In the electrometallurgical extraction of metals one has on the one hand the advantage Separating the materials in a very pure state is an issue on the other hand the not insignificant technical difficulty to get this pure precipitate from the Separate documents, i.e. the cathodes.

As is well known, the direct method is often used Melting off the metals in those cases where the precipitate metal is essential has a lower melting point than the cathode material. This is how you dive, for example the tin cathodes deposited on iron plates melted into a swamp Pewter and pulls the iron sheets out again. Disadvantage of this process is the relatively high heat that causes the iron sheets to warp gives.

On the other hand, attempts have been made with other metals than mother sheets To use cathodes of the same material, which, of course, are initially different Purity than the deposited metals. First the electrolytic produced plates, e.g. B. of copper, in turn, can be used successfully as mother plates are used, whereby all parts of the finished copper plate have the same degree of purity exhibit. To remove the primary copper precipitates, i.e. the mother plates, methods have been found which consist in choosing between the original Sheet metal made of copper with a lower degree of purity and the precipitate an insulating layer low strength by covering the cathodes with paraffin, petroleum jelly, lubricating oil, Shellac or similar substances. For better conductivity of this Coatings are mixed with ground graphite to the insulation materials. From so prepared Cathodes can be removed from the copper sheet relatively easily in plate form.

This detachment is even easier when using aluminum cathodes, on which the deposited copper or zinc does not adhere well. aluminum however, it has the disadvantage that it is too strongly attacked in alkaline solutions and therefore an extraction of the precipitated metal in sheet form impossible power. Incidentally, in the case of using alkaline electrolytes, those are also as above Sketched insulation layers are difficult to use because they are mostly, especially at higher temperatures, can be destroyed by alkali.

According to the invention, cathode sheets made of magnesium or magnesium alloys, preferably from alloys used under the trademark law protected name "electron" are known, surprisingly in alkaline solutions deliver perfect cathode sheets.

It is through use of magnesium and magnesium alloys, especially of electron metal, as Kafhöd (#nmaterial succeeded, the metal precipitates in such a form - that you can remove the deposited metal without much Difficulty removing from the cathode. The deposited metal can be in any thickness can be obtained as sheet metal or plate. Even in cases where the cathodic current yield was only 20 percent, the evolution of hydrogen So was very lively (80 percent of the cathode effect), could still perfectly Perfect deposits can be achieved, which peel off well from the cathode sheet let.

In the extraction of tin, when using the inventive Magnesium cathodes circumvented the annoying disadvantages of warping the iron plates will. Even in tinplate detinning with the recovery of solid tin, the Rule can be used with success.

The previously necessary pressing processes for the older process cathodically deposited sponge and special ovens for melting down the tin compacts are superfluous with the new process.

The cathodes according to the invention are also, for example, in the deposition of zinc from zincate solution and of cadmium from cyankalic solution can be used well.

Claims (1)

PATENT CLAIM: The use of magnesium and magnesium alloys as a cathode material in electrolytic metal extraction to produce easily removable precipitates.