DE918786C - Process for the electrolytic coating of objects with a conductive surface with a high-gloss nickel coating - Google Patents

Description

Process for the electrolytic coating of objects with conductive Surface with a mirror finish nickel coating. This invention relates to the electrolytic coating of objects with a conductive surface with a high-gloss nickel plating.

It is generally known to provide objects with a conductive surface, particularly metals, with a nickel coating by electrolytic means by connecting the object in a nickel bath as a cathode. Known nickel baths contain z. B. nickel sulfate and chloride, boric acid, a sulfonic acid and a wetting agent in the following proportions Ni S04 - 7 aq ............. 6o to 400 g / 1 NiC12 - 6 aq .............. 1o - 300g / 1 Boric acid ................ io - 50 g / 1 A sulfonic acid ......... i - 50 g / 1 If necessary, a network medium ................. o, i - 0.5 g / 1 The addition of a sulfonic acid is common for bright nickel baths (see e.g. Pfanhauser nGalvanotechnika, pp. 442 and 444).

The pH of such baths is kept below 5.5, the temperature preferably between 50 and 70 °.

According to the invention, articles with a conductive surface are, in particular Metals, electrolytically coated with a high-gloss nickel coating in use a known nickel bath to which one or more oximes are added have been.

This treatment gives a high-gloss nickel coating, and the grain is highly refined, while the nickel layer is gentle and is ductile.

It was also found that the method according to the invention to particularly favorable results leads when the nickel bath a Dioxime has been added.

As such, the addition of an oxime and especially a dioxime is prohibited Nickel salt solutions known (see e.g. Tschugaeff, Zeitschrift für Anorg. Chemie, 46 [1g051, p. 144 and r46).

The concentration at which the oxime or oximes were added to the nickel bath can be varied widely, and for each particular oxime the most favorable one should be Concentration to be determined according to experience. In general, concentrations are usable up to about 8oo m9 / 1, and although higher concentrations are permissible, a concentration between 2 and zo m9 / 1 is the most favorable in many special cases.

The invention further extends to those according to the invention objects provided with a high-gloss nickel coating.

The invention is explained in more detail by the following exemplary embodiment. Example A nickel bath with the following composition: NiS04 - 7 aq ..................... 3509/1 NiC12 - 6 aq .. ................ ... 509/1 boric acid ....................... 35 g / 1 naphthalenedisulphonic acid .......... 2 g / 1 its pH was 4.8, isatin dioxime .......: .......: .... 5.5 m9 / 1 was added. An iron object was electrolytically nickel-plated in this bath at a temperature of 50 ° and a cathode current density of 5 A / dm2, and it was provided with a high-gloss nickel coating.

Instead of the isatin dioxime, dimethylglyoxime ........... r2 m9 / 1 or a-benzoin oxime ............. 6 m9 / 1 or uraciloxime ..... ........... 7.5 n19 / 1 can be added.

The gloss range of the bath containing one or more oximes is generally between cathode current densities of 0.05 to 40 A / dm2.

Claims (3)

PATENT CLAIM: _. Process for the electrolytic plating of Objects with a conductive surface, especially of metals, with a high-gloss finish Nickel coating, characterized in that a nickel bath known per se is used to which one or more oximes have been added. 2. Procedure according to Claim z, characterized in that a dioxime has been added to the bath. 3. The method according to claim z or 2, characterized in that the concentration the oxime in the bath is up to about 800 mg / l, preferably 2 to zo mg / l.