Alkali zinc nickel bath

Electrolysis: processes – compositions used therein – and methods – Electrolytic coating – Depositing predominantly alloy coating

Reexamination Certificate

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Details

C204S252000

Reexamination Certificate

active

06602394

ABSTRACT:

BACKGROUND OF THE INVENTION
The invention relates to an electroplating bath for plating zinc-nickel coatings, having an anode, a cathode and an alkaline electrolyte.
It is known to coat electrically conductive materials with zinc-nickel alloys in order to improve their resistance to corrosion. To do this, it is customary to use an acidic electrolyte bath, for example, with a sulfate, chloride, fluoropromate [sic] or sulfamate electrolyte. In these processes, it is very difficult and, in practice, generally impossible, in terms of control technology, to achieve a uniform thickness of the zinc-nickel coating on the material to be coated.
For this reason, the alkaline zinc-nickel electroplating baths which are disclosed in German Patent 37 12 511 have recently been used, having, for example, the following composition:
11.3 g/l ZnO
4.1 g/l NiSO
4
*6H
2
O
120 g/l NaOH
5.1 g/l polyethyleneimine.
The amines contained in the electroplating bath serve as complex formers for the nickel ions, which are otherwise insoluble in the alkaline medium. The composition of the baths varies depending on the manufacturer.
The electroplating baths are usually operated with insoluble nickel anodes. The zinc concentration is kept constant by the addition of zinc and the nickel concentration is kept constant by the addition of a nickel solution, for example, a nickel sulfate solution. However, after they have been operating for a few hours, the color of these baths changes from what was originally blue-violet to brown. After a few days or weeks, this discoloration becomes more intense and it is possible to detect a separation of the bath into two phases, the upper phase being dark brown. This phase causes considerable disruption to the coating of the workpieces, such as, for example, nonuniform layer thickness or blistering. It is therefore imperative for the bath to be continuously cleaned, i.e., for this layer to be skimmed off continuously. However, this is time-consuming and expensive.
Furthermore, after a few weeks of operation it is possible to detect cyanide in the baths. Cyanide pollution requires regular cleaning of the bath and special wastewater treatment, which has a considerable effect on the operating costs of the bath. This applies all the more so if the wastewater has a very high concentration of organics and, with a COD value of approximately 15,000 to 20,000 mg/l, makes cyanide detoxification more difficult. It is then only possible to adhere to statutory wastewater parameters (nickel 0.5 ppm and zinc 2 ppm) by the extensive addition of chemicals.
The formation of the second phase is attributable to a reaction of the amines, which in alkaline solution are converted at the nickel anodes to form nitrites (including to form cyanide). Moreover, on account of the amines being broken down, fresh complex former has to be continuously added to the bath, which increases the costs of the process.
Anodes other than nickel anodes cannot be used, since they dissolve in the alkaline electrolyte, which also has adverse effects on the quality of the coating.
BRIEF SUMMARY OF THE INVENTION
In view of this background, the invention is based on the problem of providing an alkaline zinc-nickel electroplating bath which provides high-quality zinc-nickel coatings at low cost.
To solve this problem, the invention proposes separating the anode from the alkaline electrolyte by an ion exchange membrane.
This separation prevents the amines from reacting at the nickel anode, with the result that there are no undesirable secondary reactions which cause waste disposal problems or lead to a second phase of reaction products being deposited on the bath and adversely affect the quality of the zinc-nickel coating. The invention obviates the need for this layer to be skimmed off at high cost and to renew the bath. Furthermore, there is a considerable improvement in the quality of the coating.
The use of a cation exchange membrane made from a perfluorinated polymer has proven particularly advantageous, since such membranes have a negligible electrical resistance but a high chemical and mechanical resistance.
Furthermore, the cyanide poisoning of the wastewater no longer takes place, thus considerably simplifying the entire wastewater treatment. Furthermore, there is no need to top up the complex former in the electrolyte, since it is no longer broken down and its concentration in the bath remains approximately constant. As a result, the cost of the process becomes considerably less expensive.
In the solution according to the invention, the zinc-nickel bath functions as catholyte. The anolyte used may, for example, be sulfuric acid or phosphoric acid. In the electroplating cell according to the invention, customary anodes, such as, for example, platinum-coated titanium anodes, are suitable as anode material, since they are no longer exposed to the basic zinc-nickel bath.
The present invention is explained in more detail with reference to the exemplary embodiment illustrated in the drawing, in which:


REFERENCES:
patent: 4832812 (1989-05-01), Brown
patent: 5310465 (1994-05-01), Vaughan
patent: 5405523 (1995-04-01), Eckles
patent: 37 12 511 (1995-06-01), None
patent: 0 410 919 (1991-01-01), None
patent: PCT/EP99/05443 (2000-03-01), None
patent: PCT/EP99/05443 (2001-04-01), None
patent: 58093886 (1983-06-01), None
patent: 4176893 (1992-06-01), None

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