DD154615A1 - ELECTROLYTE FOR THE GALVANIC DEPOSITION OF GLACIATING GOLD ALLOYS - Google Patents

Abstract

The invention relates to an electrolyte for the electrodeposition of glossy gold alloys on a cyanide basis for the surface finishing of contact components and for decorative applications. The aim and object of the invention is to find a suitable Haertebildner with gloss-forming properties in order to eliminate the high Ueberwachungsaufwand for electrolytes for the electrodeposition of Goldnickellegierungen constant composition. This object is achieved in accordance with the invention by adding nickel salt of an aminodicarboxylic acid to an electrolyte consisting of potassium dicyanoaurate and a conductive salt of a weak organic acid in such an amount that the amount of nickel required in the solubility product of this compound is present in the solution. By adding an excess of the nickel salt of a Aminodicarbonseure forms a sediment. The consumed nickel quantity is replenished from this.

Description

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Electrolyte for the electrodeposition of shiny gold alloys

The invention relates to an electrolyte for the electrodeposition of shiny gold alloys based on cyanide \ 0 for the surface refinement of contact components and for decorative applications.

Characteristic of the beka

The galvanic deposition of gold alloy layers of electrolytes with potassium dicyanoaurate with the addition of nickel as nickel sulfate heptahydrate, nickel sulfamate, nickel acetate or nickel salt of ethylenediaminetetraacetic acid is known. The conductive salts used are the alkali metal salts of inorganic and organic acids, such as sodium citrate or dipotassium hydrogenphosphates. The use of nitrilotriacetic acid O is likewise known

In addition, gold nickel alloy electrolytes are known which contain (p'traborates, thiocyanates or metaborates as complexing agents).

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The prior art has the disadvantage that the galvanic deposition of Goldnickellegierungsschichten constant composition with constant physical properties such as hardness and ductility due to the complicated electrolyte composition requires a very high supervision saufwand.

In DD WP 96 261 the addition of glucose or sulfosalicylic acid is proposed as a brightener. The analytical control of these constituents also requires extensive and time-consuming analyzes in addition to the determination of the Kicke1 component.

The object of the invention is to eliminate the high monitoring effort for electrolytes for the electrodeposition of gold nickel alloys of constant composition.

The invention is based on the problem of finding a suitable hardener with gloss-forming properties for a cyanidic gold electrolyte.

This object is achieved in accordance with the invention by adding nickel salt of an aminodicarboxylic acid to an electrolyte consisting of potassium dicyanoaurate and a conductive salt of a weak organic acid in such an amount that the amount of nickel required for the solubility product of this compound is present in the solution Nickel salt of an aminodicarboxylic acid forms a sediment »The amount of nickel consumed is supplied from this

Mr has the deposition of functional gold nickel alloys

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the compound Ni (II) L-glutamic acid has proven particularly advantageous owing to its low solubility in the gold electrolyte with diammonium hydrogen citrate and potassium dicyanoaurate.

Furthermore, because of its constant nickel content in the gold alloy precipitate, it has very good bonding properties and is therefore very well suited for the coating of bonding islands for the covering of discrete components in eybrid circuits.

The invention will be explained below with reference to two embodiments.

Electro! ^ Composition:

Kalxum dicyanoaurate 4-30 g / l

i-Ammonium hydrogen citrate 20 - 60 g / l Hickel (II) L-glutamic acid 6-20 g / l

The electrolyte may preferably be operated in the temperature range of 20 to 40 ⁰ C · is the cathodic current density

at Eatodenbewegung 0.3-4 A / dm. The pH? ^"R ert is preferably from 4-5.5 (electrometric). 30

Electrolyte composition:

Potassium dicyanoaurate 4-3 ° g / l

Sodium citrate 30-80 g / l

Nicke1 (1I) L-glutamic acid 6-20 g / l

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The temperature is 30 - 70 ⁰ G and the cathodic current density is at cathode motion at 0.3 to 4 A / dm · The pH is 4-5.5 (electrometrically) o

Claims (1)

Invent ^ ^ gsans smell 1. electrolyte for the electrodeposition of bright gold alloys consisting of Kaliumdicyanoaurat and the conductive salt of a weak organic acid, characterized in that the electrolyte added to the nickel salt of an aminodicarboxylic acid and constantly an excess in the form of a sediment is present 2 »electrolyte according to item 1, characterized in that _{f is added} as nickel salt nickel (II) L-glutamic acid.