SU1177398A1 - Method of chromium-plating in trivalent chromium sulfate-base electrolyte - Google Patents

Abstract

CHROMINATION METHOD IN ELECTROLYTE BASED ON SULFATE OF THREE-VALENT CHROME using an insoluble anode, characterized in that, in order to increase chromium current yield, deposition is carried out at a ratio of anode surface to cathode equal to 0.1-0.4, and in the quality of insoluble anode use titanium schwuokiomanganese electrode.

Description

one

The invention relates to the field of metal coating deposition by an electrolytic method, in particular, to methods for producing chromium coatings from an electrolyte based on trivalent chromium salts.

The purpose of the invention is to increase the current output of chromium.

The use of titanide oxide manganese anodes with an anodic surface to cathode ratio of 0.1-0.4 in electrolyte. Based on trivalent chromium sulfate, conditions can be created to suppress oxidation of electrolyte components, to increase the content of intermediate products of divalent chromium, thereby stabilizing the composition of the solution and increase the output of chromium current

The surface ratios used are optimal. When the ratio of the anode surface to the cathode is greater than 0.4, the current efficiency does not increase. At a ratio less than 0.1, an increase in resistance is observed at the electrodes, which requires an increase in voltage across the bath terminals.

The composition of the electrolyte at pH 3, O in examples 1-16 the following, mol / l

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chromium sulfate O, 25 $ formic acid P, 75j ammonium sulfate 1.0; boric acid and, 5.

The table shows examples, 5 illustrating the proposed method (examples 1-12) and limestone (examples 13-16) using platinum anodes.

Under the recommended electrolysis conditions, bright chromium coatings are deposited to a thickness of 2.5 μm, 7.2 μm. A substrate of nickel, steel, copper and its alloys can be used as the substrate, as well as

zinc and zinc alloys.

The magnitude of the microhardness of the coatings, depending on the electrolysis modes used, is 800-950 kgf / mm. The internal stresses measured by the cathode bending method are in the order of 2500 kgf / cm.

The proposed method can be recommended for obtaining protective decorative chromic coatings used for exterior surface finish of parts used in

automotive, engineering and other industrial sectors.

Claims (1)

METHOD OF CHROMING IN ELECTROLYTE BASED ON TREVALENT CHROMIUM SULPHATE using an insoluble anode, characterized in that, in order to increase the current output of chromium, the deposition is carried out at the ratio of the anode surface to the cathode equal to 0.1-0.4, and as a quality insoluble At the anode, a titanium dual oxo manganese electrode is used. m m ed 1177398 - 2