DE1941822B2 - GALVANIC GOLD ALLOY BATH FOR DEFINING HIGH AND LOW ALLOY GOLD COATINGS - Google Patents

Description

3 4

Way that phthalic acid and one of the temperatures mentioned 45 ° C get white gold, high compounds one after the other or at the same time shiny coatings with a very slight gold tint with heating to almost the boiling point in and 15 weight percent nickel. The micro-hardness of the water can be dissolved and implemented. Coating is 220 kp / mm ^s .

The additional solution produced can be 1 to 50 g / l 5

of the alloy partner in the form of phthalate example 3

compounds included. Bath composition:

c) The working alloy bath is produced

by adding a certain amount of the 8 g / l Ar as potassium gold cyanide,

Additional solution to the basic bath. io 60 g / l potassium hydrogen phthalate,

The amount of additional solution is calculated so that ^K OH ¹ ^ setting of pH 5.25.

that 1 liter of the finished bath 20 to 250 mg

of alloy metal contains. 200 mg / 1 nickel as phthalate, added in the form

The baths are stable and ensure that 10 ml of an additional solution is removed by dissolving separation of constant coatings. 15 of 8 g of phthalic acid and 4 g of nickel hydroxide caibonate

in 100 ml of water with heating.

The baths work with a perfect high gloss. At a current density of 0.5 A / dm ² and the temperature

under the following working conditions: temperature 50 ° C one obtains the deposit of a

Gold-nickel alloy with 32 percent nickel by weight.

Current density 0.1 to 3 A / dm ² , 20 The coating is glossy and white-gray.

preferably 0.5 to 1 A / dm ² ,

Temperature 20 to 65 ° C, example 4

PH value ^{3 9 to 5} ' ⁵ - bath composition:

Moderate to strong agitation is required. a ₅ ⁸ S / ^{1 Au as} potassium gold cyanide,

It is advisable to regularly use 60 g / l potassium hydrogen phthalate in the bath,

filter. KOH to adjust pH 4.5.

Depending on the working conditions selected in the above range, precipitates of very different 25 mg / 1 Co as phthalate, added in the form of a composition up to high levels of noble metal 30 5 ml of an additional solution, which are obtained by dissolving 2 g, as in the following examples phthalic acid and 1 g of cobalt hydroxide carbonate are shown: 100 ml of water would have been prepared with heating. Example 1 At a current density / on 0.5 A / dm ² and 25 ° C

one obtains the deposition of a gold-cobalt

Bath composition: _{35 alloy} with 0.8 weight percent cobalt in the form

8 g / l Au as potassium gold cyanide, a high-gloss, gold-colored coating with

60 g / l potassium hydrogen phthalate, a microhardness of 200 kp / mm ² . The cathodic

KOH to adjust pH 4.5. Current efficiency is about 28 ° / ₀ .

mg / 1 Ni as phthalate, added in the form of 40 B e i s ρ i e 1 5

ml of an additional solution, which by dissolving bath composition:

g phthalic acid and Ig nickel hydroxide carbonate in

ml of water has been prepared with heating. 8 g / l Au as potassium gold cyanide,

At a current density of 1 A / dm ² and space 60 g / 1 potassium hydrogen phthalate.

temperature, a gold-colored, high-gloss 45 ^{K0H 7 is obtained to} adjust the pH to 5.25.

Coatings with 1.7 weight percent nickel.

50 mg / 1 cobalt as phthalate in the form of 10 ml B e i s ρ i e 1 2 of the additional solution described in Example 4.

At a current density of 0.5 A./dm ² and 40 ° C

Bath composition and production as in 50, a white gold alloy with 6 percent by weight of example 1. With a current density of 0.5 A / dm ² and cobalt is deposited.

Claims (2)

ι 2 except for alkali gold cyanide only phthalate compounds patent claims: contain, namely alkali hydrogen phthalate and at least one phthalate of nickel, cobalt, zinc, 1. Galvanic, a gold salt, a weak cadmium, tin, indium or antimony. the organic acid and a metal salt containing 5 composition of the inventive pin baths Gold bath for the deposition of ductile, crack-free high- as follows: shiny gold alloy coatings, also with high contents of nickel, cobalt, zinc, cad- 2 to 30 g / l gold as alkali gold cyanide, mium, tin, indium and / or antimony, there- 30 to 120g / I alkali hydrogen phthalate, characterized in that the bath 10 20 to 250 mg / 1 Ni, Co, Zn, Cd, Sn and / or Sb as phthalate compounds.
2 to 30 g / l gold as alkali gold cyanide, 30 to 120 g / l alkali hydrogen phthalate, the galvanic baths according to the invention for 20 to 250 mg / 1 Ni, Co, Zn, Cd, Sn and / or deposition of high-gloss gold alloy Sb as phthalate compounds 15 coat with the alloy components nickel, contains. Cobalt, zinc, cadmium, tin, indium and or 2. A method for the deposition of gold antimony are characterized in that they are alloys using a bath after extensive influencing of the alloy together-claim 1, characterized in that the settlement of the precipitate by pH value, temperature deposition at a pH Allow a value of 3.9 to 5.5 20 and current density, with a very broad current density of 0.1 to 3 A dni ² and a range up to high base metal contents above a temperature of 20 to 65 ⁰ C being carried out. can be deleted. Baths have proven to be particularly advantageous showed that the nickel or cobalt phthalate compounds 25 genes included. The galvanic gold alloy according to the invention The invention relates to galvanic, weak acid approximate baths are very stable. Let yourself go from them Gold alloy baths. Gold alloy coatings with excellent luster Gold alloy coatings with a composition that increases the hardness of the alloy in a very wide range, reduces abrasion, creates a shine and is free of cracks,
the base metal component, preferably cobalt, or the base metal content can be used to a large extent in the electronics industry between 0.2 nickel and 33 percent by weight, according to a localization. The content of base metal lies in the alloy. It is about 0.2 to 2 percent by weight. The excess base metal concentration in the bath essentially has the same color as pure gold 35 the working conditions, namely current density, pH with a slight shift in the hue into white value and temperature, and is influenced by variables. On the other hand, z. B. can be controlled to a large extent by the decoration of these values. Industry Gold alloy coatings with a higher base metal content in the coatings decreases with the amount of precious metal required, with the color scale increasing the current density, while the reverse is the case for the known whole range between the pure gold tone and 40 baths.
should paint over pure white. Preference is given to all coatings, both the high-quality ones, which are often a pure white gold alloy coating, e.g. B. have the color of pure gold, as well as the base for a rhodium top layer. carats who are almost the pure color of the ignoble Weakly acidic gold alloy baths, which have a weak base part, become high-gloss in the bath Containing organic acids or phosphoric acids, 45 deposited, are very ductile and free from cracks. Further are known. The alloy partners of gold have favorable properties of the baths according to the invention or the metal compounds acting as brighteners are good stability, high hiding power and good fertilizers are added, for example in throwing power, which is largely independent of the Form of sulphates, sulphair.ates, phosphates, borates, current density is. Citrates or as compounds with ethylenediamine 50 The bath management for the separation of gold tetraacetic acid. The alloy coatings obtained from these baths are made, for example, under fol coatings are generally 21 to 23 carat, the following working conditions:
and the alloy composition is based on these Area restricted. Higher proportions of alloy a) Basic bath, consisting of: 2 to 30 g / l gold metal can optionally be achieved by adding 55 as alkali gold cyanide, preferably as potassium very high base metal concentration in the bath or too gold cyanide, and 30 to 120 g / l alkali hydrogen High current densities go over, which is disadvantageous phthalate, preferably as potassium hydrogen phthalate. on the stability of the baths as well as the ductility and the pH of the solution is increased by adding affects the appearance of the coatings. This kind of an alkali hydroxide, preferably potassium The coatings produced are brittle and tend to be 60 hydroxide, to a value between 3.9 and 5.5 Cracking. set. The invention is therefore based on the object, b) additional solution consisting of an aqueous one to develop a gold alloy bath that allows a solution of nickel, cobalt, zinc, cadmium, defined high- and low-alloy gold alloy, tin, indium and / or antimony phthalate or coatings with good ductility and freedom from cracks, their phthalate complex compounds, preferably to deliver. wisely made by reaction of phthalic acid It has now been found that such gold with carbonates, hydroxides or hydroxide Can make alloy coatings from baths, the carbonates of the metals mentioned, z. B. on the