DE816022C - Process for the electrolytic deposition of zinc - Google Patents

Description

Process for the electrolytic deposition of zinc In the known electrolytic processes for the deposition of zinc, especially from sulphate solutions, anodes are used that are either made of pure lead or of a lead alloy that contain small amounts of silver or tin.

In this process, a small amount of lead is transferred from the anode to the Cathode worn, a circumstance that reduces the purity of the precipitated zinc. In addition, the anode corrodes relatively quickly and it forms her a cover, consisting of the most varied of substances, with the result that the The effectiveness of the procedure is considerably limited if one does not choose to clean the anode frequently. Are lead anodes used that contain small amounts of Contain silver or tin, the precipitated zinc contains a little less Lead than when using pure lead anodes.

According to the present invention, an anode is used which is small Contains amounts of tin and cobalt.

The lead anode containing cobalt and tin can also be used to advantage Contain silver.

Particularly suitable lead anodes in accordance with the present invention are those containing o, i to o, 30/0 tin and 0.0005 to 0.03% cobalt. Particularly Anodes which also contain 0.25 to 1% silver are also advantageous. It was found that the use of lead Tin-cobalt electrodes Gives results comparable to those obtained when the previously preferred, but relatively expensive, silver-containing electrodes applies. If you use lead-tin-cobalt-silver electrodes, less than half as much lead carried to the cathode as when using the usual lead-tin or lead-silver electrodes. In comparison with the pure lead electrodes even less than 1/4 of the amount of lead carried to the cathode if the lead anode is tin, cobalt and contains silver.

The process for making anodes according to the invention is as follows: First, an alloy of tin and cobalt is made and this is turned into suitable Portions of molten lead added. The molten alloy is then in cast a suitable anode shape. When using a lead-tin-cobalt-silver alloy it is advisable to first make an alloy of tin and cobalt and this then to be added to an alloy of lead and silver in a suitable proportion. This mixture is then melted and, as mentioned above, into suitable shapes poured.

It has been found that anodes of the invention type during the Electrolysis are far more resistant to corrosion Effect, known as anodes. As a result, there is also the precipitation of lead compounds lower in the electrolytic cells and on the anode, reducing the viability increases the size of the anode and reduces the need for frequent cleaning of the anode is. The above-mentioned precipitate on the anode consists essentially of different Metals and / or chemical compounds containing lead peroxide, gypsum, manganese dioxide.

The effect of the method according to the invention and the anode according to the invention is illustrated in the following table, which is the result of a series of tests with the most varied of anodes; it should be noted that, although the alloys given in the table below give particular results, the invention is by no means limited in terms of quantity to these alloys. Operational: % Lead in the zinc precipitate Pure lead anode .. ... .. .. ... .. ... 0.0049 Lead anode with 0.85% silver ....... 0.0023 Lead alloy according to the invention manure with 0.84% silver, 0.22o% tin, 0.02% cobalt. . . . . . . . . . . . . . . . . o, oo11 In the laboratory: Lead anode with additives as follows o% lead in 0/6 silver 0% tin °% cobalt zinc precipitate - - - 00037 0 95 - - 0.0020 - 0.957 0.007 0.0022 - 1.4 0.28 0.00 1 8 o, 81 0, 25 0.002 0,0o08

Claims (4)

PATENT CLAIMS: i. Process for the electrolytic deposition of zinc from zinc sulphate solutions, characterized by the use of a lead anode with a low content of tin and cobalt. 2. The method according to claim i, characterized by using a lead anode, which contains small amounts of tin, cobalt and Contains silver. 3. The method according to claim i and 2, characterized by the use of a lead anode which contains approximately 0.1 to 0.30 / 0 tin and 0.0005% to 0.3% cobalt. 4. The method according to claim i to 3, characterized by the use a lead anode which, in addition to cobalt and tin, contains approximately 0.25 to 1% silver.