DE384284C - Process for the electrolytic deposition of zinc, iron or nickel - Google Patents

Description

Process for the electrolytic deposition of zinc, iron or Nickel. The present invention relates to a method for obtaining metallic Deposits of zinc, iron, nickel or their alloys due to electrolysis other metals, namely iron and aluminum.

According to the present process, the solution of sulfates des Iron, zinc and nickel, which are not precipitated by alkali thiosulphate, in thiosulfate to achieve firmly adhering deposits on metal, such as. B. iron and aluminum. You can get particularly heavy rainfall, when the electrolyte has a sufficient degree of dissociation to allow the use of a allow small potential difference. The latter condition is used according to the present Process achieved in that .the solution of the sulfates of iron, zinc, nickel used (solution of alkali thiosulfate with an organic acid until the beginning the decomposition of the thiosulfate is added.

According to the present method, there can be two in the electrolyte dissolve various metal sulfates and thereby precipitate alloys without that the hitherto required use of cyanides is necessary.

Example. A warm sodium thiosulphate solution is prepared with the following composition: H., O ..................... i ooo g, Well .. SZ 0 3 ................... ioo g. . To increase the degree of disseciation of this solution and to enable electrolysis with a weak potential difference, an acid is gradually added, advantageously drop by drop, until the thiosulphate begins to decompose. First, thiosulphuric acid is released, which then decomposes into sulphurous acid - SO2 and sulfur. The addition of the acid is interrupted as soon as the decomposition begins.

Zinc sulfate, for example, is then added, allowed to cool and electrolyzed. The clear solution forms the electrolyte. The cathode is used for electrolysis from the object on which the precipitation is to be obtained, for example Aluminum or iron, while the anode consists of a zinc electrode. While electrolysis becomes the same from a light layer of non-adherent zinc sulphide covered. In an analogous way 'can precipitation, iron on iron and iron on Aluminum, can be obtained by converting the sulphates of the metals to be precipitated and anodes are used accordingly. The process allows nickel to be used immediately to be deposited on iron without a prior copper plating of the iron necessary were.

The applied constant electromotive force does not exceed i volts. The current intensity is a function of the electrode area.

One can use a sodium thiosulphate solution which is a mixture of Sulfates ciitliält, z. B. a mixture of iron sulfate and zinc sulfate or a mixture of iron sulfate and nickel sulfate. In both cases iüan strikes Alloys, whose content is due to the electromotive force between o, 5 and i volts fluctuates, can be determined.

The metal piece made of iron or aluminum is only in the electrolyte introduced when the current acts. The metal objects are, as usual, beforehand z. B. cleaned in a solution of caustic potash or caustic soda. The received, firm adherent and very thick deposits can be annealed, polished, hammered us «v. will.

Claims (1)

PATENT CLAIMS: i. Process for the electrolytic deposition of zinc, iron or nickel on another metal using an alkali thiosulphate solution, characterized in that the thiosulphate solution used to dissolve the metal sulphates is mixed with an organic acid until the thiosulphate begins to decompose. a. Process according to claim i, characterized in that for the purpose of deposition of metal alloys, two sulfates, e.g. B. of nickel and iron, dissolves in the thiosulfate solution.