SU518535A1 - Method of making activated anode - Google Patents

Claims (2)

Example 2. A nickel-plated nickel-plated steel mesh is processed according to the method described in Example 1. The current density on the anode of the nickel-plated steel mesh activated by the proposed method is 7000 a / m with a potentiality of + 1.50 V (conditions the same as in example 1). The electrochemical activity of the anodes made by the proposed method is 3–7 times the electrochemical activity of the known electrodes. Testing anodes for 200 hours at a current density of 2000-5000 A / m in 30% KOH at 70 ° C showed that the active layer applied by the proposed method has good adhesion to the substrate, so that the electrochemical activity of the electrodes does not change. in time. As a result of carrying out the proposed method with the same voltage value on the cell of the electrolyzer, its dimensions could be 1.5-2 times lower than the existing ones, and while maintaining the size and performance, the specific energy consumption can be reduced by 20- thirty%. The invention method for producing an activated anode for the electrolysis of aqueous solutions of alkali by forming oxides on the surface of a metal layer, advantageously with the structure of layers, one or several activator metals, such as cobalt, applying a salt solution on the substrate, followed by drying and heating the electrode to the decomposition temperature of the salt , characterized in that, in order to increase the electrochemical activity of the anode and improve the adhesion of the active layer to the substrate, before applying A solution of the activator metal salt is deposited on the substrate with an aluminum powder, the electrode is heated in a hydrogen atmosphere at 700–750 ° C for 1-2 h and the aluminum is leached from the formed alloy. Sources of information taken into account in the examination: 1.UK patent number 871950, k, -: -; Sv, 10.16.1959. 2. The patent of France No. 2112388, cl. At 01 1/00, 06/16/1972.