JP3462338B2 - Brightness adjuster for semi-gloss silver plating - Google Patents

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a gloss adjusting agent for semi-glossy silver plating.

[0002]

2. Description of the Related Art Silver plating has been used for a long time in ornaments, western food appliances and the like, and has also been widely used in the electronic industry field because of its excellent electrical characteristics.

Most of the silver plating baths used for silver plating were cyanide baths containing silver cyanide, but recently, non-cyan type silver plating is required due to work safety or wastewater treatment. Various baths have been proposed. A gloss adjusting agent is added to a silver plating bath in the electronics industry in order to obtain appropriate smoothness [Practical Plating (I) Supplemental Edition (edited by February 1985) edited by Japan Plating Association] See page 450]. Generally, glossiness of 0.3 to 0.8
(GAM gloss meter) is said to be suitable. For example, as this type of glossiness adjusting agent used in a silver plating bath, there are generally thiol-based organic glossiness adjusting agents and inorganic glossiness adjusting agents such as selenium and antimony.

[0004]

However, such a conventional gloss adjusting agent has a narrow current density range in which a gloss effect can be obtained, and can obtain a gloss level required only within a certain limited range. I couldn't.

The present invention has been made by paying attention to such a conventional technique, and provides a gloss adjusting agent for semi-bright silver plating capable of obtaining a stable semi-bright appearance in a wide current density range. It is a thing.

[0006]

In order to achieve the above object, the present invention uses a gloss adjusting agent for a silver plating bath containing SH ⁻ ions.

By adding this glossiness adjusting agent to the silver plating bath, the current density range for obtaining a semi-glossy appearance is expanded. That is, the current density range in which a favorable and stable semi-glossy appearance is obtained becomes wider than that of the conventional glossiness adjusting agent. Further, the glossiness can be changed by the bath temperature and other components, but the glossiness adjusting agent according to the present invention is hardly affected by the current density. Further, since there is no unevenness in glossiness, bath management is easy.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION The supply of SH ⁻ ions, which is the main element of the glossiness adjusting agent of the present invention, is preferably carried out by adding potassium hydrosulfide, sodium hydrosulfide, hydrogen sulfide or the like.

The content of this glossiness adjusting agent is from 1 to 100.
If the amount is 0 mg / liter (preferably 20 to 200 mg / liter), less than 1 mg / liter, no effect is observed, and if the amount is more than 1000 mg / liter, sulfuration of the base metal may occur.

The gloss modifier is particularly suitable for silver non-cyan baths. In the case of a non-cyan bath, silver nitrate, silver oxide, silver acetate and the like are suitable as the silver compound.

In the case of a non-cyan bath, an inorganic acid silver is contained as a silver compound, and as a complexing agent, a general formula is used.

[Chemical 3] [In the formula, R ₁ , R ₃ and R ₅ are each hydrogen, or 1 to 5
Alkyl group having 1 carbon atom, or aryl group, or alcohol] or general formula

[Chemical 4] [Wherein R ₁ , R ₃ , R ₅ , and R ₅ ′ are each hydrogen, or an alkyl group having 1 to 5 carbon atoms, or an aryl group, or an alcohol], and at least one of the hydantoin compounds The one containing is preferable.

The complexing agents include hydantoin, 1
-Methylhydantoin, 1,3-dimethylhydantoin, 5,5-dimethylhydantoin, 1-methanol-
5,5-dimethylhydantoin, 5,5-diphenylhydantoin, etc. can be adopted.

The non-cyan silver plating bath contains silver in a metal concentration of 1 to 100 g / liter and a complexing agent in a silver ion concentration of 10 ^-15 to 10 ^-2 mol / liter. I am trying. Further, this silver plating bath is assumed to be used under operating conditions of pH 8 to 13, liquid temperature 30 to 90 ° C., and current density 1 to 150 A / dm ² .

The gloss effect by the gloss adjusting agent of the present invention is not so much influenced by the current density as described above. However, the gloss effect is affected by bath temperature. That is, the higher the bath temperature, the lower the glossiness.

In the silver plating bath containing the gloss adjusting agent of the present invention, it is preferable to use a soluble silver anode except when it is used as strike plating. That is, when a silver anode is used, silver dissolves and the silver concentration in the bath increases, so the characteristics as a strike bath are lost, but in the case of other silver plating baths, the silver concentration control of the bath is controlled. The labor of is reduced. Furthermore, when silver is used as the anode, the decomposition reaction of the glossiness adjusting agent in the bath can be suppressed as compared with the case of using other metal (for example, platinum-plated titanium anode). Therefore, the life of the gloss adjusting agent (and thus the life of the silver plating bath)
Becomes longer. As described above, by utilizing the silver anode, the decomposition reaction of the gloss adjusting agent containing the SH ⁻ ion can be suppressed because the oxidation reaction of the SH ⁻ ion in the anode is caused by the dissolution reaction of silver. This is because it is suppressed or prevented.

[0016]

EXAMPLES As shown in Table 1, six kinds of silver plating baths (Examples 1 to 6) according to the present invention were prepared. And as a glossiness adjusting agent, sodium hydrosulfide was used in Examples 1-3, and potassium hydrosulfide was used in Examples 4-6. Further, as comparative examples, a bath in which the gloss adjusting agent of Example 2 was changed to a conventional antimony potassium tartrate (Comparative Example 1), and a bath in which the gloss adjusting agent of Example 5 was changed to another conventional saccharin (Comparative example 2) was prepared.
Then, the silver plating baths of Examples 1 to 6 were plated using a platinum-plated titanium anode and a silver anode, respectively. In addition, Comparative Example 1 was plated using a platinum-plated titanium anode, and Comparative Example 2 was plated using a silver anode.

[0017]

[Table 1]

[0018]

[Table 2]

The "current density" in Table 2 above is a value when an injection plating apparatus is used. This spray plating was performed under the conditions of a temperature of 60 ° C., a pump flow rate of 12 liters / minute, and a plating area of 1 cm ² .

The "life" is a value when a 16 cm ² test piece is immersed in a beaker having a liquid volume of 500 ml for plating. The liquid temperature was 60 ° C. and the current density was 7.5 A / dm ² .

Then, in each of the examples and comparative examples, the current density and life were evaluated so that a stable semi-glossy appearance was obtained. The gloss evaluation was measured using a gloss meter (GAM). A stable semi-gloss appearance was obtained when the glossiness was in the range of 0.3 to 0.8, and the others were regarded as defective. As for the life of the silver plating bath, the number of turns of the bath was examined.

As shown in Table 2, in Examples 1 to 6, a uniform semi-glossy appearance could be obtained in a wide current density range. The deposition efficiency was 100%.

On the other hand, in Comparative Example 1 and Comparative Example 2, the semi-glossy appearance is obtained only when the upper limit value is lower than the upper limit value of the embodiment or higher than the lower limit value of the embodiment. I couldn't get it.

Further, regarding the life evaluation of Examples 1 to 6, the use of silver as the anode showed a longer life as the silver plating bath than the case of using the platinum-plated titanium anode.

[0025]

By adding the glossiness adjusting agent of the present invention to the silver plating bath, the current density range in which a good and stable semi-glossy appearance is obtained becomes wider than that of the conventional glossiness adjusting agent. . When using this glossiness adjusting agent, the life of the silver plating bath is extended by using a silver anode,
Since the bath is easy to manage, it is very useful in industry.

─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP 62-250193 (JP, A) JP 59-150095 (JP, A) JP 55-79892 (JP, A) JP 55- 34699 (JP, A) JP 54-155132 (JP, A) JP 54-39329 (JP, A) JP 52-105540 (JP, A) JP 52-7335 (JP, A) JP-A-51-149134 (JP, A) JP-A-50-120435 (JP, A) JP-A-8-104993 (JP, A) JP-A-7-166391 (JP, A) JP-A-6-330372 (JP, A) JP-A-2-290993 (JP, A) JP-A-2-228489 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) C25D 3/46

Claims (5)

(57) [Claims] 1. A gloss adjusting agent for a semi-bright silver plating bath comprising SH ⁻ ions. 2. A non-cyan type silver plating bath containing the gloss adjusting agent according to claim 1 as SH ⁻ ions in an amount of 1 to 1000 mg / liter. 3. The non-cyan type silver plating bath according to claim 2, wherein the SH ⁻ ions are supplied in the form of at least one of potassium hydrosulfide, sodium hydrosulfide, and hydrogen sulfide. 4. An inorganic acid silver is contained as a silver compound, and a complexing agent represented by the general formula: [In the formula, R ₁ , R ₃ and R ₅ are each hydrogen, or 1 to 5
Alkyl group having 1 carbon atom, or aryl group, or alcohol] or the general formula: [Wherein R ₁ , R ₃ , R ₅ , and R ₅ ′ are each hydrogen, or an alkyl group having 1 to 5 carbon atoms, or an aryl group, or an alcohol], and at least one of the hydantoin compounds The non-cyan type silver plating bath according to claim 2 or claim 3 containing. 5. A silver plating method for plating with a soluble silver anode in the silver plating bath according to claim 2.