KR101266252B1 - Trivalent chromium galvanizing solution for bright dark black color and manufacturing method of the same - Google Patents

Abstract

The present invention is a trivalent chromium plating solution for a glossy black trivalent chromium plating layer on a metal base material containing copper, wherein the trivalent chromium plating solution is 0.4 to 0.6M of a trivalent chromium compound and the trivalent chromium compound. 0.8 to 1.2 M of a complexing agent to inhibit the polymerization reaction in the aqueous solution, 0.8 to 1.2 M of a conduction aid for increasing the electrical conductivity of trivalent chromium ion, and 0.8 to 1.2 M of a buffer to stabilize the hydrogen ion index of the aqueous solution. , 8 to 12 g / l of a polarizing agent that inhibits trivalent chromium ion from oxidizing to divalent, and an inorganic color developer that controls the brightness and saturation of a glossy black trivalent chromium plating layer including Fe ions and Co ions. / l, an oxidant for oxidizing the metal ions included in the inorganic color expression agent, and a hydrogen ion index adjuster (KOH) for adjusting the hydrogen ion index (pH), 0.1A / dm ² to 20A / dm ² in current density range glossy black trivalent type chromium plating Characterized in that the possible.

Description

Trivalent chromium galvanizing solution for bright dark black color and manufacturing method of the same}

The present invention relates to a trivalent chromium plating solution and a method for manufacturing the same. More specifically, trivalent chromium enables the formation of a glossy black trivalent chromium plating layer by adding an inorganic color developer including Fe ions and Co ions. It relates to a plating solution and a method of manufacturing the same.

Chromium plating is a plating process that is the most common among the various plating processes and corresponds to the final treatment, and may be classified into decorative plating for obtaining a beautiful glossy metal surface and hard plating for the purpose of increasing wear resistance.

In the case of decorative plating, the plating thickness is 2 / 10,000 ~ 1 / 1,000mm, and it is mainly used for surface plating of brass in tableware and other disposable products, and hard plating is 5 / 1,000 to 1mm for several minutes depending on the wear life. It is used to prevent wear of the screw fixing part of the camera lens, the fitting part of the precision machine, the inner surface of the mold, the printing plate surface and the like.

In general, chromium plating is electroplated by using a solution of sulfuric acid (H ₂ SO ₄ ) mixed with chromic acid (CrO ₃ ), which is hexavalent chromium. The anode is not chromium metal and is not eroded by sulfuric acid like lead. The chromium reduction in the solution is supplemented with chromic acid to continue electrodeposition.

In addition, there are high concentrations and low concentrations of chromic acid in the plating liquid used for chromium plating, and various types of plating can be obtained depending on the temperature of the liquid and the density of the current. As such, hexavalent chromium plating has an advantage of excellent reflectivity, color, corrosion, corrosion resistance, and high current efficiency.

However, despite these advantages, hexavalent chromium plating generates critical chromic acid vapor during the process and causes toxic environmental pollution when hexavalent chromium ions enter groundwater or rivers. Is holding.

In other words, hexavalent chromium is classified as a cancer-causing substance by the International Agency of Research on the Cancer (LARC), and its replacement technology is required in addition to prohibiting the use of hexavalent chromium in the future. Research for the development of materials is actively underway.

Various attempts to replace hexavalent chromium plating include ion-nitriding, plasma spraying, and ion plating, but the cost is 5 to 10 times that of hexavalent chromium plating. There are problems to be added and difficult to apply to large products.

Accordingly, chromium plating using trivalent chromium is recognized as the most effective and efficient.

However, trivalent chromium ions included in the trivalent chromium plating solution have a very complex coordination chemical structure in the aqueous solution, and there is a problem in that a chromium plating layer is difficult to form due to low reactivity.

Accordingly, a trivalent chromium plating solution has been developed which enables the formation of a trivalent chromium plating layer having a high gloss and high strength by adding various additives.

For example, Korean Patent No. 0572486 discloses a "trivalent chromium plating solution composition and its manufacturing method" to selectively include a metal component in a plating active additive to improve adhesion.

However, the present invention has a problem in that the plating efficiency is lowered since the trivalent chromium plating layer can be formed within a narrow current density range of 20 to 40 A / dm ² .

In addition, although the paper "Renewable Energy 30 (2005) 2163" describes that cobalt or iron may be used as an additive, in the examples, only cobalt was used to eliminate the nonuniformity of plating.

On the other hand, the conventional black chromium plating solution contains a phosphorus (P) component such as phosphate or hypophosphite, the acidity (acidity) is very narrow between 0.5 to 1 which is strongly acidic, and 20 to 40 A / dm ² or 60 to 80 A / dm ^There is a problem that black plating is possible only within a narrow current density range of ² .

An object of the present invention is to solve the above problems, it is possible to increase the reactivity of the plating solution in the low-medium current density range to enable the plating of a wide gloss (Coverage) of the glossy black trivalent chromium plating layer to improve the economic efficiency To provide a trivalent chromium plating solution and a method for producing the same.

It is another object of the present invention to add an inorganic color expression agent containing no phosphorus (P) component and to form a glossy black trivalent chromium plating layer by adding an inorganic color developer containing Fe ions and Co ions, thereby adding value to stabilizing bath life. The present invention provides a trivalent chromium plating solution for a glossy black trivalent chromium plating layer and a method for producing the same.

The present invention is a trivalent chromium plating solution for a glossy black trivalent chromium plating layer on a metal base material containing copper, wherein the trivalent chromium plating solution is 0.4 to 0.6M of a trivalent chromium compound and the trivalent chromium compound. 0.8 to 1.2 M of a complexing agent to inhibit the polymerization reaction in the aqueous solution, 0.8 to 1.2 M of a conduction aid for increasing the electrical conductivity of trivalent chromium ion, and 0.8 to 1.2 M of a buffer to stabilize the hydrogen ion index of the aqueous solution. , 8 to 12 g / l of a polarizing agent that inhibits trivalent chromium ion from oxidizing to divalent, and an inorganic color developer that controls the brightness and saturation of a glossy black trivalent chromium plating layer including Fe ions and Co ions. / l, an oxidizing agent for oxidizing the metal ions included in the inorganic color expression agent, and a hydrogen ion index regulator (KOH) for adjusting the hydrogen ion index (pH), 0.1A / dm ² It is possible to form a glossy black trivalent chromium plating layer in a current density range of 20 A / dm ² .

The inorganic color developer, a brightness regulator for adjusting the brightness of the glossy black trivalent chromium plating layer 1 ~ 7g / l,

Characterized in that it comprises a saturation regulator 1 ~ 7g / l for controlling the saturation of the glossy black trivalent chromium plating layer.

The trivalent chromium compound is characterized in that the chromium sulfate (Cr ₂ (SO ₄ ) ₃ ) or chromium chloride (CrCl ₃ ).

The oxidant is characterized in that ammonium persulfate is applied.

The complexing agent is characterized in that it comprises at least one of oxalic acid (oxalic acid), formic acid (formic acid), ammonium oxalate salt, ammonium formate salt, alkali metal salt.

The conduction aid is characterized in that it comprises one or more of KCl, NH ₄ Cl, K ₂ SO ₄ , (NH ₄ ) ₂ SO ₄ .

The depolarizing agent is characterized in that any one of NH ₄ Br, NaBr, NaF.

The buffer is characterized in that H ₃ BO ₃ is applied.

The molar concentration ratio of the trivalent chromium compound and the complexing agent is characterized in that 1: 0.5 ~ 1: 1.5.

The inorganic color expression agent, a brightness control agent is adopted any one of FeCl ₂ , FeSO ₄ , FeS and a cobalt ion salt of any one of CoCl 2, Co (CN) 2, Co (NO 3) 2, CoSO 4 Characterized by comprising a chromaticity control agent comprising.

Method for producing a trivalent chromium plating solution using a glossy black trivalent chromium plating layer according to the present invention, the distilled water heating step to put the distilled water in a container and heated to 70 ℃ and adding a complexing agent 0.8 ~ 1.2M to the heated distilled water Adding a complexing agent, a buffer dissolving step of dissolving by adding 0.8 ~ 1.2M of buffer, a conducting aid dissolving step of dissolving by adding 0.8 ~ 1.2M of conducting aid, and adding 0.4 ~ 0.6M trivalent chromium compound Trivalent chrome stirring step of stirring, oxidant addition step of adding 5 to 15 g / l of an oxidizing agent for oxidizing metal ions, and inorganic addition of 2 to 14 g / l of an inorganic color expression agent containing Fe ions and Co ions A color expression agent addition step, a hydrogen ion index adjustment step of adjusting the hydrogen ion index (pH) by adding a hydrogen ion index adjuster (KOH), and a complexing step of reacting the mixed solution mixed with the above composition for 12 hours or more to ignite it Made up of scoop It shall be.

In the inorganic color expression agent addition step, the oxidizing agent is characterized in that the ammonium persulfate is applied.

In the inorganic color expressing agent addition step, the inorganic color expressing agent, the brightness control agent 1 ~ 7g / l containing Fe ions to control the brightness of the gloss black trivalent chromium plating layer and the gloss black trivalent chromium plating layer It characterized in that it comprises a saturation regulator 1 ~ 7g / l containing Co ions for saturation control.

As described in detail above, in the trivalent chromium plating solution for the glossy black trivalent chromium plating layer according to the present invention, Fe ions and Co ions are included as the inorganic color developer, and the plating solution reactivity is increased in a low-medium current density range. Plating of gloss area is possible.

Therefore, there is an advantage that the economic value is improved and the added value is improved by stabilizing the bath life.

In addition, there is an advantage that the plating layer can be formed more easily, and the plating layer having a uniform thickness can be formed.

In addition, since the formation speed of the plating layer is increased, productivity is improved.

1 is a table showing the composition and electroplating conditions of the trivalent chromium plating solution according to the present invention.
2 is a process flowchart showing a method for producing a trivalent chromium plating solution according to the present invention.
3 is an experimental result comparing the appearance change of the trivalent chromium plating layer according to the change in the content of Fe ions which is one component of the inorganic color expression in the trivalent chromium plating solution according to the present invention.
Figure 4 is an experimental result showing the appearance change of the trivalent chromium plating layer when increasing the content of Co ions which is one component of the inorganic color developer in the trivalent chromium plating solution according to the present invention.
5 is a change in appearance of the trivalent chromium plating layer when the content of Co ions, which is one component of the inorganic color developer, is increased to 3 g / l in the trivalent chromium plating solution according to the present invention, and the content of Fe ions is increased. Experimental results compared.
6 is a change in appearance of the trivalent chromium plating layer when the content of Co ions, which is one component of the inorganic color developer, is increased to 5 g / l in the trivalent chromium plating solution according to the present invention, and the content of Fe ions is increased. Experimental results compared.
7 is a change in appearance of the trivalent chromium plating layer when the content of Co ions, which is one component of the inorganic color developer, is increased to 7 g / l and the content of Fe ions is increased in the trivalent chromium plating solution according to the present invention. Experimental results compared.

Hereinafter, a method of manufacturing a trivalent chromium plating solution as described above will be described with reference to FIGS. 1 and 2.

1 is a table showing the composition and electroplating conditions of the trivalent chromium plating solution according to the present invention, Figure 2 is a process flow chart showing a method for producing a trivalent chromium plating solution according to the present invention.

The trivalent chromium plating solution according to the present invention is to form a bright dark black color trivalent chromium plating layer on a metal base material containing copper, and in the embodiment of the present invention, the trivalent chromium compound is Cr _2. (SO ₄ ) ₃ , any one of formic acid (HCOOH) and oxalic acid as complexing agent, NH ₄ Cl as conduction aid, H ₃ BO ₃ as buffer, NH ₄ Br as stimulant, 5 ~ 15g / l ammonium persulfate was applied.

In addition, the trivalent chromium plating solution further includes an inorganic color developer. The inorganic color developer includes Fe ions and Co ions to determine brightness and saturation of the trivalent chromium plated layer.

That is, the inorganic color expression agent comprises a brightness control agent for adjusting the brightness of the trivalent chromium plating layer, and a saturation control agent for adjusting the saturation, the brightness control agent includes Fe ions, the chromaticity control agent Co ions This includes.

More specifically, the inorganic color expression agent is FeCl ₂ , FeSO ₄ , one of the lightness adjusting agent is adopted iron Fe salt of FeS, CoCl2, Co (CN) 2, Co (NO3) 2, CoSO4 And a saturation modifier comprising a cobalt ion salt.

In an embodiment of the present invention, the inorganic color developer includes 1 to 7 g / l FeCl ₂ and 1 to 7 g / l CoCl ₂ .

Hereinafter, a method of manufacturing a trivalent chromium plating solution configured as described above will be described with reference to FIG. 2.

First, the distilled water heating step (S100) to put 400ml of distilled water in a container and heated to 70 ℃. Thereafter, 46 g of a complexing agent (formic acid) is added to the heated distilled water, and then cooled to 40 to 50 ° C. (complexing agent addition step: S200).

At this time, the molar concentration ratio of the trivalent chromium compound and the complexing agent is preferably 1: 0.5 to 1: 1.5.

Then, 60 g of the buffer (H ₃ BO ₃ ) is added, followed by heating to 70 ° C. to dissolve completely. (Buffer dissolving step (S300))

When the buffer is dissolved, 53.5 g of a conduction aid (NH ₄ Cl), and 74,5 g of KCl are added and then dissolved (conduction aid dissolution step: S400).

The trivalent chromium compound is added to the vessel in which the conductive support agent is dissolved, and the trivalent chrome stirring step (S500) of stirring for 16 to 24 hours is performed.

Thereafter, an oxidizer addition step (S600) of adding 5 to 15 g / l of an oxidant for oxidizing metal ions is performed.

The oxidant was ammonium persulfate.

Thereafter, an inorganic color expressing agent adding step (S700) of adding an inorganic color expressing agent which is a main component of the present invention is performed.

Brightness control agent of the inorganic color expression agent 1 ~ 7 g / l FeCl ₂ , the chromaticity control agent was applied 1 ~ 7 g / l CoCl ₂ was applied.

Then, the hydrogen ion index (pH) is adjusted by the hydrogen ion index adjuster (hydrogen ion index adjustment step: S800).

Finally, the ignition step (S900) is performed by reacting the above components for 12 hours or more to complete the preparation of the trivalent chromium plating solution.

The hydrogen ion index (pH) of the trivalent chromium plating solution prepared according to the above process is preferably in the range of 2-4.

Hereinafter, the change in color and gloss of the trivalent chromium plating layer according to the change in the amount of the inorganic color developer was added in the trivalent chromium plating solution prepared according to the above procedure.

More specifically, the negative electrode is connected after supporting the copper specimen in the trivalent chromium plating solution prepared according to the manufacturing method of the present invention described above. In addition, an anode is applied to the plating bath to flow a current.

In this case, it is preferable that graphite and an insoluble anode are used as a portion connected to the anode in the plating bath. More specifically, the insoluble anode is a composite containing at least one of Ir, Ta, Pt is applied.

In addition, when the current is applied, the effective current application range was performed within the range of 0.1 to 20 A / dm ² , and oxalic acid was applied as the complexing agent. The complexing agent may be adopted formic acid (formic acid).

As shown in FIG. 3, oxalic acid was applied as the additive, and SO ₄ salt + Cl salt and Cl salt were used as conduction aids, respectively, and the current density was changed from 0.1 A / dm ² to 20 A / dm ² . When the brightness and saturation of the plating layer was examined.

First, FIG. 3 is an experimental result comparing the appearance change of the trivalent chromium plating layer according to the change of the content of Fe ions, which is one component of the inorganic color expression agent, in the trivalent chromium plating solution according to the present invention. After preparing the chromium plating solution in the plating bath, a plurality of specimens are cut to the same size and prepared. At this time, Co ions, which are brightness regulators, were fixed at 1 g / l and Fe ions were applied differently at 1 g / l or 3 g / l.

As a result, when the concentration of Co ions is as low as 1 g / l, a part of the gloss black color is generated in the low current density range, but a light black trivalent chromium plating layer is formed in most regions of the medium / high current density. It became.

In addition, it was confirmed that the brightness of black is changed according to the content of Fe ions as shown in FIG.

Therefore, it can be seen that Fe ions are used as the brightness control agent.

Figure 4 is an experimental result showing the appearance change of the trivalent chromium plating layer when increasing the content of Co ions which is one component of the inorganic color developer in the trivalent chromium plating solution according to the present invention, the content of Fe ions and Co ions The same was fixed at 2 g / l.

As a result, the glossy black color diffused from the low current density range to the medium current density range as the Co ion content increased slightly.

Therefore, it can be seen that Co ion is used as a saturation regulator in the trivalent chromium plating solution.

5 is a change in appearance of the trivalent chromium plating layer when the content of Co ions, which is one component of the inorganic color developer, is increased to 3 g / l in the trivalent chromium plating solution according to the present invention, and the content of Fe ions is increased. As a result of the comparison, the content of Co ions was fixed to 3g / l equally, and the content of Fe ions was added differently to 1g / l and 3g / l.

As a result, when the Co ion content was increased to 3g / l, the gloss black color tended to diffuse up to the high current density, and when the Fe ion content was increased, a wide current density range of 0.15 to 16 A / dm ² was obtained. In, a trivalent chromium plated layer having a uniform glossy black was formed.

Therefore, it can be seen that the trivalent chromium plating solution containing 3 g / l of Co ions and 3 g / l of Fe ions is the most preferred embodiment.

6 is a change in the appearance of the trivalent chromium plating layer when the content of Co ions, which is one component of the inorganic color developer, is increased to 5 g / l in the trivalent chromium plating solution according to the present invention and increased when the content of Fe ions is changed. As a result of the comparison, when the concentration of Co ion was increased to 5g / l, it was confirmed that the gloss black color was sharply reduced and the entire current density area was changed to the gloss pale black.

7 is a change in appearance of the trivalent chromium plating layer when the content of Co ions, which is one component of the inorganic color developer, is fixed to 7 g / l in the trivalent chromium plating solution according to the present invention and increases when the content of Fe ions is changed. As a result of the comparison, the Co ion content was fixed at 7 g / l and the Fe ion content was applied differently at 5 g / l and 7 g / l, respectively.

As a result, in the state in which the Co ion content was added as high as 7g / l, even if the Fe ion content increased, the dark black color appeared in the high current density region beyond the trend of the concentration change of the previous experiment.

According to the experimental results as described above, it can be seen that Fe ions and Co ions act as a medium for expressing black color, and the brightness and saturation changes of color are determined by the ratio of the two ions.

The scope of the present invention is not limited to the above-described embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the scope of the present invention.

S100. Distilled water heating step S200. Complexing agent addition step
S300. Buffer dissolution step S400. Conduction Aid Dissolving Step
S500. Trivalent chrome stirring step S600. Oxidizer Addition Step
S700. Inorganic color expression addition step S800. Hydrogen ion index adjustment stage
S900. Ignition stage

Claims (13)

delete In a trivalent chromium plating solution for a glossy black trivalent chromium plating layer on a metal base material containing copper,
The trivalent chromium plating solution, the trivalent chromium compound 0.4 ~ 0.6M; 0.8 to 1.2 M of a complexing agent to inhibit the polymerization reaction of the trivalent chromium compound in an aqueous solution; 0.8 ~ 1.2M conduction aid to increase the electrical conductivity of trivalent chromium ion; 0.8 to 1.2 M buffer for stabilizing the hydrogen ion index of the aqueous solution; 8-12 g / l of a polarizing agent which suppresses trivalent chromium ion from oxidizing to divalent; Iron ion salt, which is one of FeCl ₂ , FeSO ₄ , and FeS, is adopted to adjust brightness of bright black trivalent chromium plating layer 1 ~ 7g / l, CoCl 2, Co (CN) ₂ , Co (NO ₃ ) ₂ Cobalt ion salt of any one of CoSO ₄ is adopted, and an inorganic color developer comprising 1 to 7 g / l of a saturation regulator for saturation control of a glossy black trivalent chromium plating layer; An oxidizing agent for oxidizing the metal ions contained in the inorganic color developer; It includes a hydrogen ion index adjuster (KOH) to adjust the hydrogen ion index (pH),
A trivalent chromium plating solution for a glossy black trivalent chromium plating layer, characterized in that the formation of a glossy black trivalent chromium plating layer in the current density range of 0.1 A / dm ² to 20 A / dm ² is possible. The trivalent chromium plating solution for a bright black trivalent chromium plating layer according to claim 2, wherein the trivalent chromium compound is chromium sulfate (Cr ₂ (SO ₄ ) ₃ ) or chromium chloride (CrCl ₃ ). 4. The trivalent chromium plating solution for a glossy black trivalent chromium plating layer of claim 3, wherein the oxidant is ammonium persulfate. 5. The method of claim 4, wherein the complexing agent comprises at least one of oxalic acid, formic acid, ammonium oxalate, ammonium formate, and alkali metal salt. Gas chromium plating solution. The trivalent chromium for the glossy black trivalent chromium plating layer according to claim 4, wherein the conduction aid comprises at least one of KCl, NH ₄ Cl, K ₂ SO ₄ , and (NH ₄ ) ₂ SO ₄ . Plating solution. The trivalent chromium plating solution for a glossy black trivalent chromium plating layer according to claim 4, wherein the depolarizing agent is any one of NH ₄ Br, NaBr, and NaF. The trivalent chromium plating solution for a glossy black trivalent chromium plating layer of claim 4, wherein the buffer is H ₃ BO ₃ . 5. The trivalent chromium plating solution for a glossy black trivalent chromium plating layer according to claim 4, wherein the molar concentration ratio of the trivalent chromium compound and the complexing agent is 1: 0.5 to 1: 1.5. delete In the method for producing a trivalent chromium plating solution for forming a glossy black trivalent chromium plating layer on a metal base material containing copper,
Distilled water heating step of putting distilled water in a container and heated to 70 ℃; Adding a complexing agent to the heated distilled water by adding a complexing agent 0.8 to 1.2 M; A buffer dissolving step of dissolving by adding 0.8 to 1.2 M of a buffer to stabilize the hydrogen ion index of the aqueous solution; A conductive auxiliary dissolving step of adding 0.8 to 1.2 M of a conductive auxiliary agent to increase the electrical conductivity of trivalent chromium ions; A trivalent chrome stirring step of adding and stirring 0.4 to 0.6M trivalent chromium compound; An oxidizer addition step of adding 5 to 15 g / l of an oxidizing agent for oxidizing metal ions; Iron ion salt, which is one of FeCl ₂ , FeSO ₄ , and FeS, is adopted to adjust brightness of bright black trivalent chromium plating layer 1 ~ 7g / l, CoCl 2, Co (CN) ₂ , Co (NO ₃ ) ₂ An inorganic color expression additive adding step of adding cobalt ion salt of any one of CoSO ₄ to an inorganic color expression agent including 1 to 7 g / l of a saturation regulator for controlling the saturation of a glossy black trivalent chromium plating layer; A hydrogen ion index adjustment step of adjusting a hydrogen ion index (pH) by adding a hydrogen ion index adjuster (KOH); Glossy black trivalent, characterized in that the complexing step consisting of the complexing agent, the buffer, the conductive aid, the trivalent chromium compound, the oxidizing agent, the inorganic color developer, the hydrogen ion index regulator mixed with a mixed solution for at least 12 hours to complex. Method for producing trivalent chromium plating solution for chromium plating layer. The method of claim 11, wherein in the inorganic color expression adding step,
The oxidizing agent is a method for producing a trivalent chromium plating solution for a glossy black trivalent chromium plating layer, characterized in that ammonium persulfate is applied. delete

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