Chemistry: electrical and wave energy – Processes and products
Patent
1989-02-09
1990-05-29
Tufariello, T. M.
Chemistry: electrical and wave energy
Processes and products
C25D 502
Patent
active
049293150
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
The invention described herein relates to a process for galvanic coating (electroplating) of at least one selected area on a conducting surface, in particular a surface of plastic moldings.
Electroplating processes are known from, for example, DE-OS 2,648,274 which relates to applying galvanic patterns of metal onto metal or other substrates. In order to obtain the desired pattern or to confine the galvanizing electrolyte to specific areas of the substrate, the substrate is masked. The individual steps of such a masking process have repeatedly been a cause of problems to the present state of the art and have significantly increased process costs. While prior art relates to the production of integrated circuits and is particularly concerned with holding losses of noble metals to a minimum, the process in the automotive industry has been to use black masking paints which are applied to the areas not to be galvanized and are then coated with a metallic finish. In the conventional procedure, for example for partially chrome plated hub caps with a silver metal finish, the black masking paint is first applied to the areas not to be chrome plated. This was then followed by the customary galvanization. The chrome plated areas were subsequently covered (by adhesive or masking tape) and then finally the black areas coated by the first masking paint were painted with a metallic finish.
The prior art procedures described are, however, time consuming and costly, particularly with respect to operations and materials.
It is thus the object of the present invention to improve the process described at the outset to such an extent that the shortcomings described are reliably avoided and the operations are as economical in materials and time as possible
The invention that overcomes these problems includes use of an electrolytic current, in which masking is carried out in order to apply selectively galvanic coating to at least this one area of the conducting surface. An electrically conducting metallic primer is first applied to the whole of the surface of the molding. The area(s) to be galvanically coated are then masked, while a clear coat such as a clear varnish is applied to the area not to be galvanically coated. Following mask removal, the areas of the metallic primer are galvanically coated directly.
The process according to the invention makes use of the fact that the metallic finish consists of two layers, viz. the electrically conducting metallic primer or base varnish and the non-conducting clear coat or clear varnish. After the metallic primer and the clear coat have been applied with appropriate masking, the area of the electrically conducting metallic primer can, after removal of the maskings, be galvanically coated directly, thus making the use of a black masking paint which must yet again be recoated, superfluous. This economizes not only in masking and painting operations, but also in materials which would otherwise have to be used for the black masking paint.
The above has been a brief description of the prior art and the advantages of the invention. A preferred procedural example is explained in greater detail in the diagrams below and other advantages may be perceived by those skilled in the art.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a cross-section through an assembly of layers during the process according to the invention;
FIG. 2 is a further cross-section of the assembly of layers at a different point in time of the process according to the invention;
FIG. 3 is a cross-section through an assembly of layers after mask removal; and
FIG. 4 is a cross-section through an assembly of layers after completion of the process according to the invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
In FIG. 1, the molding serving as a substrate is generally designated as 12. The process according to the invention is not confined to any particular moldings. On the contrary, they can be freely chosen in respect of type, shape and size. However, the use of the process accor
Schaper Siegfried
Seufert Martin
Audi AG
Tufariello T. M.
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