SU1425257A1 - Chrome-plating electrolyte - Google Patents

Abstract

The invention relates to the field of electroplating, in particular to the electrolytic production of chromium coatings. The purpose of the invention is to increase the scattering ability of the electrolyte. The electrolyte contains, g / l: chromic anhydride 80-180, sulfate-containing compound 0.5-1.5J aluminum fluorofluoride basic Of5-3 sintamide-5 0.1-0.5; The electrolyte has a high dissipative, as well as covering power, high current output. Low .. concentration of chromic anhydride makes it less aggressive and facilitates the disposal of wastewater. The electrolyte allows precipitating brilliant chromium coatings at temperatures of 25-55 ° C and current densities of 10-50 A / dm. The electrolyte can be used in the automotive, engineering and instrument-making industries for applying decorative decorative chromium coatings on steel products, zinc and copper alloys, as well as on products with a pre-applied layer of nickel. 1 ap f-ly, 1 tab. c (X (L

Description

; The invention relates to electroplating, in particular to the electrolytic production of chromium coatings, and can be used in various fields of technology for the protective and decorative surface finish of metal and metal.

i The purpose of the invention is to increase the scattering capacity of the electrolyte.

Electrodeposition is carried out at a current density of 10-50 A / dm and a temperature of 25-55 ° C. The electrolyte contains, g / l:

Chromic anhydride YAO-180 I Sulfate.

I connection 0.5-1.5

i Sintamid-50,1-0,5

Aluminum fluorosilicate core 0.5-3.0

The electrolyte is prepared by dissolving chromic anhydride in water, and then the sulfate-containing substance is introduced into the resulting solution. After that, fluorosilicate aluminum bn and syntamide-5 are added. The solution is stirred | and kept for a day,

I In order to obtain high-quality brilliance of precipitates R over a wide range of current densities, the concentration of silica fluoride aluminum in the electrolyte should not be lower than 0.5 g / l, and syntamide-5 should not be lower than 0.1 g / l. A decrease in the concentration of these components leads to a degraded globally forming ability of the electrolyte. At {increasing the concentration of these add-ons | Wok above the upper limit (3 g / l for the basic aluminum fluorosilicate and 0.5 G / L for the syntamide-5) deterioration of the electrolyte scattering power is observed.

The composition of the electrolyte and the properties of the coatings are given in the table.

All results presented in the table are obtained when chromium coatings are applied to nickel plated plates.

As can be seen from the table, the proposed electrolyte has the best scattering ability and allows to obtain coatings with a high current output. In addition, the electrolyte is characterized by a high deposition rate of coatings, better covering power and less aggressiveness, ensuring

five

0 5

It produces high-quality brilliant chromium coatings in the entire reduced temperature range (25–55 ° C) and at all the indicated cathode current densities (10–50 A / dm).

The advantages of the electrolyte include the low concentration of fluoride ions, which affects the decrease in the aggressiveness of the electrolyte.

The electrolyte can be used for decorative chrome plating on zinc, copper, nickel alloys, as well as for wear-resistant chrome plating on steel. The low aggressiveness of the electrolyte contributes to an increase in the service life of the process equipment, less dissolution of the metal in the uncovered parts of the parts, and also facilitates the disposal of wastewater.

The electrolyte can be used in the automotive industry, mechanical engineering and instrument making for the application of protective and decorative cold coatings on various products,

Claims (2)

1. Chromium electrolyte containing chromate anhydride catalyzing a sulfate-containing compound and silicofluoride acid salt, characterized in that, in order to increase the dispersion capacity of the electrolyte, it additionally contains syntamide-5, and as an aluminum salt of silicofluoride acid, silica fluoroformed aluminum is the main component ratio, g / l: Chromic anhydride 80-180 Sulfate-containing connection 0.5-1.5 Sintamide-5 0.1-0.5 Aluminum silicofluoride basic 0.5-3.0 2. The electrolyte according to claim 1, characterized in that as the sulfate-containing compound it contains a compound selected from the group consisting of sulfuric acid, sodium sulfate and calcium sulfate, Components electrolyte g / l: chromic anhydride sulfuric acid sodium sulfate calcium sulfate fluorosilicate aluminum silicic acid basic aluminum 100 150 150 180 180 1,3 2.0 1.5 one, 1.5 3.0 Sintamide-5 Cathode current density. A / dm Temperature, C Current output,% Electrolyte scattering power +5 Deposition rate, m / min 0,2 Microhardener, kg / mm 878 Covering capacity at, 1 5A (Hull's cell) -, Aggressiveness of the solution, expressed in weight loss, g. Titanium steel-3 -25 0.4 1000 -29 0.7 1036 -51 0.8 842 -65 1.5 1.5 1.5 2.0 4.5