DE698194C - egen - Google Patents

Description

Process for the preparation of palladium precipitates The present The invention relates to a method for the production of palladium precipitates, the the nature of its composition enables the production of precipitates, which are dense, anti-corrosive and light-colored even in thin layers.

Process for the production of galvanic palladium deposits are known in itself for a long time. However, the known methods work in opposition to the present one with mandatory contents of salts of the cyano group and im In contrast to the protected bath according to claim a of the present invention Contained in salts of the cyano and N H3 groups.

The baths according to the invention are always free of cyan and salts predominantly also free of salts of the N H3 group and, in contrast to the known processes coatings that have excellent properties. In particular In the case of jewelery, the appearance of the coating is of decisive importance. The palladium coatings produced so far are gray and dark, those after processes white and light colored manufactured according to the present invention. Their appearance lies between that of silver and rhodium and can be in contrast to that of rhodium can be described as pleasantly warm for a long time. Those produced by the known methods Palladium deposits are porous, they show pores and tips. For this reason must be proportionate in order to achieve effective protection of the base metal very thick layers are applied in order to make them black and spongy To prevent precipitation, the goods have to be cleaned several times. This intermediate treatment means not only an increased amount of work, but is also associated with losses * of precious metal. In contrast to the coatings produced according to the invention are even in thin layers. perfectly tight and. corrosion preventive. Objects made of un, nobler metals are completely corrosion-resistant in the new palladium baths after just 10 minutes of treatment When immersed in a strong sulfuric acid solution for 1/4 hour, a silver product remained, in remarkable contrast to, for example, rhodium-protected, completely unchanged ..

While with other palladium baths the precipitations, as already executed, turn gray after a short time, the precipitations stay with the new ones Baths white for up to half an hour of precipitation without intermediate treatment and high gloss. To achieve a high gloss, it goes without saying that Base metal has been polished to a high gloss before electroplating.

The new baths work appropriately at 20 to 25 ° C. Your working tension is 2.0 to 2.0 g V, the most favorable current density is 0.15 to 0.25 Amp / dm2. the Current yield - of the baths that work with insoluble anöde, increases somewhat with the Temperature and is 2o to 3o%.

The baths are characterized by a pH value that is equal to or greater than 9, preferably I o to I4. Such more alkaline palladium baths are not previously specified, perhaps because you only get those that contain NH3 contained as complexing agents, investigated because of their ease of manufacture Has. Baths containing ammonia provide; but not so white and shiny precipitates like ammonia-free. The solution of a simple palladium salt is used to prepare the baths mixed with excess lye, so that a clear, wine-yellow to pale yellow solution arises.

Example A solution of 60 g of NaOH in zoo ccm of water and 0.59 Palladium (as chloride) in 100 cc of water are mixed and made up to 100 cc, creating a finished bathroom.

Claims (1)

PATENT CLAIMS: I bath for the galvanic production of palladium coatings, characterized in that it is free from salts of the cyano groups and has a pH value equal to or greater than 9, preferably 10 to 14. z. Bath according to claim I, characterized in that it is free from NH3 and / or its natural organisms Descendants. `Process for the galvanic production of P, Ä.lladium coatings, characterized in that baths, according to claims 1 or 2, are used as the electrolyte Find use.