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Method for bronze galvanic coating

Inactive Publication Date: 2006-06-29
ENTHONE INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0016] The additional use of one or more anionic and / or aliphatic nonionic wetting agent that is known from the prior art is also optionally possible, provided these wetting agents support or even enhance the advantageous effects of the aromatic nonionic wetting agent. In this regard polyethylene glycols and / or anionic surfactants are preferably added to the electrolyte as anionic and / or aliphatic nonionic wetting agents.

Problems solved by technology

Such electrolytes, however, are highly toxic, which makes their use problematic from the environmental standpoint, so that for some years there has been a push to develop cyanide-free electrolytes, for example electrolytes based on pyrophosphates or oxalates, which operate in a pH region of 5-9.
However, such methods have both economic and technical disadvantages, of which the relatively slow deposition rates may be mentioned here.
However, such methods have their limits in the deposition of tin-copper alloys with high copper contents, such as the so-called “true” bronzes, which have a copper content of at least 10%.
However, in this form tin can no longer be electrolytically deposited in an acid and thus is withdrawn from the process, which leads to uneven deposition of the two metals and to a decrease of the deposition rate.
In addition, oxidation to tetravalent tin leads to increased sludge formation, which can prevent stable operation and long lifetime of the acid electrolyte.
Moreover, because of such contaminated of a firmly bonding and pore-free coating is no longer guaranteed.
Because of such technical process disadvantages, there is currently no large area of use for electrolytically deposited bronze coatings.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1

Red Bronze

[0041] 4 g / L Sn2+

[0042] 18 g / L Cu2+

[0043] 286 g / L methanesulfonic acid

[0044] 3 g / L aromatic nonionic wetting agent

[0045] 0.4 g / l aliphatic nonionic wetting agent

[0046] 2 g / L oxidation inhibitor

[0047] 20 mg / L complexing agent

example 2a

Yellow Bronze

[0048] 4 g / L Sn2+

[0049] 18 g / L Cu2+

[0050] 240 g / L methanesulfonic acid

[0051] 32.2 g / L aromatic nonionic wetting agent

[0052] 2 g / L oxidation inhibitor

[0053] 25 mg / L stabilizer / complexing agent

example 2b

Yellow Bronze

[0054] 4 g / L Sn2+

[0055] 18 g / L Cu2+

[0056] 286 g / L methanesulfonic acid

[0057] 32.2 g / L aromatic nonionic wetting agent

[0058] 6 mg / Lbrightener

[0059] 2 g / L oxidation inhibitor

[0060] 50 mg / L stabilizer / complexing agent

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Abstract

A method for electrodeposition of bronzes, with which the substrate to be coated is plated in an acid electrolyte that contains at least tin and copper ions, an alkylsulfonic acid and a wetting agent, and the preparation of such an electrolyte.

Description

FIELD OF THE INVENTION [0001] This invention concerns a method for electrodeposition of bronzes, with which the substrate to be coated is plated in an acid electrolyte that contains at least tin and copper ions, an alkylsulfonic acid and a wetting agent, and the preparation of such an electrolyte. BACKGROUND OF THE INVENTION [0002] Methods for deposition of tin and tin alloys on the basis of various types of electrolytes are known from the prior art and are already widely used in practice. Methods for deposition of tin and / or tin alloys from cyanide electrolytes are very common. Such electrolytes, however, are highly toxic, which makes their use problematic from the environmental standpoint, so that for some years there has been a push to develop cyanide-free electrolytes, for example electrolytes based on pyrophosphates or oxalates, which operate in a pH region of 5-9. However, such methods have both economic and technical disadvantages, of which the relatively slow deposition rate...

Claims

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Application Information

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IPC IPC(8): C25D3/58C25D3/60
CPCC25D3/60C25D3/58
Inventor ZSCHINTZSCH, KATRINHEYER, JOACHIMKLEINFELD, MARLIESSCHAFER, STEFANSTEINIUS, ORTRUD
Owner ENTHONE INC
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