KR20090121816A - Multi-color coloring method of aluminum anode oxidization - Google Patents

Abstract

PURPOSE: A multi-color coloring method of aluminum anode oxidization is provided to produce aluminum products with higher quality by including more than two colors on the aluminum surface. CONSTITUTION: The oxide film is formed in the whole aluminum surface produced through the casting or the forging(S100). The multiple pictures and colors are implemented on the aluminum surface through the silk screen(S200). The various pictures are molded in the silk screen. The stabilized oxide film is formed on the aluminum surface(S300). The silk screen coloring is repetitively enforced for revealing the picture and color. The penetrability dye is the azo-compound metal chelating dye. The aluminum surface shows the white by the sulfate process. The rest of the aluminum surface is colored.

Description

Multi-color coloring method of aluminum anode oxidization

The present invention relates to a method for multicoloring aluminum anodization, and more particularly, after the entire original coloration by anodization on the surface of a product made of aluminum or an aluminum alloy, various colors on the surface of the original colored aluminum or aluminum alloy By implementing the permeable dye through the silk screen, and various colors on the surface of the aluminum or aluminum alloy in this way, by performing a sealing process for the formation of a general stable oxide film, the number of coloring processes due to aluminum anodization is reduced, Through this, the production cost is reduced aluminum anodizing multi-color coloring method.

In general, aluminum has excellent corrosion resistance, excellent thermal conductivity, and is used as a material for various plates, containers, home appliances, automobile wheels, and the like. However, since aluminum is positive, the activity is high, and when exposed to air, a very thin protective film is formed on the surface of aluminum. Such a protective film is called a natural oxide film.

In other words, when the aluminum surface is covered with the natural oxide film, a pure metal surface does not occur, and there is a problem in that the plating and coating are performed by the natural oxide film generated on the aluminum surface. Therefore, the natural oxide film exposed to the air and naturally formed on the aluminum surface has a very thin thickness, and thus the use value thereof decreases. Thus, the corrosion resistant film is formed through anodizing to further improve corrosion resistance. .

Here, a brief description of the anodized film treatment, if the anode is polarized in a predetermined electrolyte in a certain electrolyte solution using aluminum as an anode, an anodized film thicker than the natural film is produced. This process is called anodized film treatment. Among the surface treatments of aluminum, the oxide film formation process is a very important process. If carelessness or deviation occurs in this oxide film formation process, it is not only directly affected by aluminum products but also greatly influenced by the subsequent coloration process and sealing process. Because I receive.

There are various known anodizing methods for forming an oxide film on the surface of aluminum, but the most widely used methods are the fishery method, the sulfuric acid method, and the chromic acid method, which are excellent in corrosion resistance and obtain a dense oxide film. The fishery method is a method of forming an oxide film by simultaneously placing an aluminum product to be formed into an oxide film in H ₂ C ₂ O ₄ aquatic solution and simultaneously sending alternating current to direct current, alternating current or direct current, and having a good current efficiency and a proportional amount of current. This increases the thickness of the oxide film. The sulfuric acid method is to form an oxide film by sending an aluminum product into a sulfuric acid solution and sending alternating current. As the concentration of sulfuric acid is lower, the film is formed harder and is widely used because the price is low. In the chromic acid method, aluminum products are added to an aqueous solution of chromium oxide, and an oxide film is formed by sending alternating current. The wear resistance is small, but the corrosion resistance is very high.

By performing anodization on the surface of aluminum by the above-described method, the color tone can be adjusted by changing the time in the process of forming the oxide film. However, the color tone of the oxide film obtained by controlling the time has a drawback that only a single color is changed from pale to dark tones, for example, from light bronze to black.

Accordingly, in order to introduce various colors on the surface of aluminum, a technique of introducing an color by forming an oxide film and applying a coloring method such as electrolytic coloring or dye coloring is known. Here, the electrolytic coloring method is to inject a metal salt into the electrolyte after anodizing and apply alternating or direct current to precipitate metal salts in pores formed on the surface of the anodizing coating so that the color appears, and the dye coloring method is an inorganic pigment. (B) A method of depositing aluminum products in a solution of organic pigments diluted to a certain concentration so that dyes or pigments are naturally adsorbed in the pores of the oxide film and colored. This coloring method has the advantage that the coating film strength is very excellent.

Another method for expressing the color of the surface of the aluminum product is a coating method for coating a coating on the surface of the aluminum product formed by casting or forging. In this method, the surface of an aluminum product is coated with a paint containing an organic dye or an inorganic pigment and heat-treated to give a color. Such a coating method has the advantage that it is not only excellent in glossiness but also color can be displayed at a low cost.

However, each of the above methods has a disadvantage in that it is very difficult to introduce multiple colors on the surface of aluminum and the process is very complicated and inconvenient. Accordingly, there is a demand for a method of introducing various colors on the surface of an aluminum product to enhance the quality of the product while enhancing the beautiful appearance. In accordance with such a request, it is disclosed in Korean Patent Publication No. 10-2007-0009884 as a conventional method for introducing various colors to the aluminum surface.

Such a conventional method comprises the steps of coating an organic paint containing an organic dye or an inorganic pigment on the surface of the aluminum product produced by casting or forging; Polishing and removing a part of the coating film of the aluminum product coated with the organic paint; Anodizing the portion where the coating film was removed to form an anodized film, and introducing color into the formed anodized film and sealing the formed film. The organic pigment was subjected to a pretreatment step of being immersed in a weak alkali solution and degreased. B) Paint the surface of the aluminum product with a paint containing inorganic pigments.

Thereafter, the coating film of the portion to be introduced with different colors on the coating film by polishing is polished and removed, and the portion where the coating film is removed is subjected to anodization to form an oxide film. do.

However, the conventional method for introducing a variety of colors on such an aluminum surface is that the color is realized by forming a coating film on the aluminum surface, and then polishing and removing the coating film of the portion for introducing the color to form an anodized film, 2 Significant effects may occur in the implementation of the different colors, but in order to implement more colors, the anodization layer is formed again through the polishing and removal of the coating film to realize the color. Repeatedly, the number of manufacturing processes tends to increase. In addition, since the anodic oxide film must be repeated again, this also increases the number of manufacturing processes and time, which leads to an increase in production cost.

In addition, the conventional method disclosed in addition to the conventional method as described above to color the entire disc through anodization on the aluminum surface. At this time, the color of the original plate is realized by only a single color by anodization, the first single color of dark color appears. Subsequently, the masking process is performed to form an anti-corrosion coating film on the entire aluminum plate colored with a deep color, and the masked part to exhibit a color different from the original color is subjected to corrosion treatment and peeled off. As such, when a part for introducing another color due to corrosion appears, color is introduced by introducing another color through anodization. Subsequently, the masking of the entire disc is corroded and removed to complete the aluminum product with the two colors introduced.

However, such a conventional method is also impossible to mask in the part that introduces precise pattern colors with the increase of the number of processes that require repeated masking and corrosion to realize two or more colors. There is a problem in that it is impossible to introduce a color having a variety of patterns, the color to be colored on the product can not be limited, as described above, there is a problem that causes an increase in the number of processes and an increase in production cost.

Therefore, the present invention has been created to solve the problems described above, to implement two or more colors using a silk screen, two or more colors can be colored on the surface of aluminum through one anodization manufacturing process The purpose of the present invention is to provide an aluminum anodized multicolored coloring method which reduces the number and thus reduces the production cost.

In addition, the present invention is capable of introducing two or more colors of precise patterns on the surface of the aluminum, it is possible to produce a higher quality aluminum product, thereby providing an aluminum anodized multi-color coloring method that can meet the needs of consumers. There is another purpose.

Aluminum anodization multi-color coloring method according to the present invention for solving the object as described above is anodizing step (100) to form an oxide film by anodizing the entire aluminum surface produced by casting or forging; Silkscreen coloring step (S200) to implement a variety of patterns and colors required on the aluminum surface in which the disc color is introduced through the silkscreen formed with various patterns of the permeable dye; and various patterns and colors introduced through the silkscreen coloring step It includes; sealing operation step (S300) for forming a stable oxide film of the aluminum surface.

Here, the silk screen coloring step is preferably carried out repeatedly so that two or more patterns and colors are expressed, and the permeable dye used in the silk screen coloring step is preferably an azo metal complex dye.

On the other hand, in the anodizing method of the anodizing step, it is preferable to form a film so as to express an excellent color when various colors are applied to the aluminum surface by applying the sulfuric acid method so that the aluminum surface is white. In addition, further comprising a deposition step (S200 ') of coloring the aluminum corresponding to the remainder of the uncolored aluminum surface through the silkscreen coloring step of the aluminum product subjected to the silkscreen coloring step through the silkscreen coloring step. good.

The present invention implements two or more colors using a silk screen, and can be used to color two or more colors on the surface of aluminum through one anodization, thereby reducing the number of manufacturing processes, thereby reducing the production cost have.

In addition, the present invention is capable of introducing two or more colors of a precise pattern on the surface of the aluminum is capable of producing a higher quality aluminum product has the advantage that can meet the needs of consumers.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the aluminum anodized multi-color coloring method according to the present invention.

1 is a flowchart of an aluminum anodized multicolored coloring method according to the present invention, Figure 2 is a view showing an embodiment according to the aluminum anodized multicolored coloring method according to the present invention, Figure 3 is anodized aluminum according to the present invention It is a flowchart which concerns on another implementation of the multicolor coloring method.

As shown in the flow chart of Figure 1, the aluminum anodizing multicolored coloring method according to the present invention includes an anodizing step (S100), silk screen coloring step (S200), sealing step (S300).

Here, the anodization step (S100) uses a sulfuric acid method of the fishery method, sulfuric acid method, chromic acid method which is widely used to form anodized film. Here, the sulfuric acid method is to form an oxide film while the aluminum product is put in a sulfuric acid solution to send a direct current, the lower the concentration of sulfuric acid, the harder the film is formed, it is widely used because the price is cheap, in the present invention, oxide film by the sulfuric acid method When forming, the white color is shown, and thus, the sulfuric acid method is adopted because the color of the color may be more beautifully expressed through the silk screen coloring step described below. The anodized film is preferably dried after forming pores of 3㎛ or more.

On the other hand, the silk screen coloring step (S200) is anodized in white through the above-mentioned anodization step (S100) to place the silk screen on the dried aluminum surface mesh of the part where the permeable dye is formed various patterns of the silk screen It penetrates innumerable pores on the anodized film on the aluminum surface through the ball, forms color, and dries. In other words, the color of the permeable dye penetrates through the numerous pores of the oxide film formed on the aluminum surface through the mesh holes of the various patterns of the silk screen to color them.

Therefore, in order to realize precise patterns and various colors on the aluminum surface, a plurality of silk screens with patterns according to the colors are provided, and in order to apply each color to the aluminum surface, the silk screens are sequentially corresponded to the aluminum surface as a permeable dye. By repeating the coloring step, the formation of various patterns and various colors can be expressed on the surface of the aluminum, accordingly, it is possible to apply a variety of colors according to the precise pattern, it is possible to produce a variety of aluminum products. Here, it is preferable to use the azo metal complex dye dye which is excellent in coloring power as a permeable dye.

The sealing processing step (S300) is to perform the sealing is generally carried out. In this general sealing process, when the oxide film is formed on the surface of aluminum, fine pores are formed, and color is introduced into the pores, so that the color appears on the surface of the aluminum, and after drying, the fine pores are sealed to smooth the surface. It is done.

In other words, if the anodized film on the surface of aluminum is left very active at the beginning of formation, it adsorbs gases in the air and eventually becomes inert. Therefore, the sealing process is performed to obtain a stable oxide film on the aluminum surface. In this way, the pores of the anodized film on the aluminum surface subjected to the sealing process step are almost blocked by the volume expansion caused by the hydration sealing hole and becomes inert.

The major characteristic changes after sealing of aluminum surface include improvement of corrosion resistance to corrosion media, enhancement of anti-pollution ability, stability of dyed and colored coatings, improvement of light resistance (weather resistance) and corrosion resistance, and production of higher quality aluminum products. This is possible.

As described above, the aluminum anodizing multicolored coloring method according to the present invention is as described below, and the examples according to the use conditions are only presented to aid the understanding of the present invention, and the present invention is not limited thereto.

First, the aluminum sheet is immersed in sodium hydroxide (NaOH; 60 ° C.) for 1 minute, degreased, washed with water, neutralized, and dried. Anodized film treatment is performed so that pores of 3 µm or more are formed on the surface of the obtained aluminum sheet.

Next, as shown in Figure 2, in order to introduce the flower pattern in various colors on the surface of the aluminum product as an embodiment, each of the silk screen formed with a pattern, such as flowers, leaves, stems, etc. After the screen is brought into close contact with the aluminum surface, a yellow color permeable dye is introduced to color the aluminum surface.

Subsequently, the silk screen on which the stem pattern is formed is positioned to correspond to the portion of the aluminum surface on which the stem pattern of the yellow surface is formed, and a black color permeable dye is introduced to color the stem pattern black on the aluminum surface.

Next, the silkscreen having the leaf pattern is placed on the side of the aluminum surface on which the leaf pattern of the black color is formed, and the green color of the leaf pattern is colored on the aluminum surface by introducing a green permeable dye.

Thereafter, after the color is expressed on the aluminum surface and dried, the micropores of the permeable dye are sealed to make the surface smooth and finished after the sealing process that is generally performed to contribute to the stability of the film.

On the other hand, as shown in the flow chart of Figure 3, after the anodization step, the silkscreen coloring step, through the silkscreen coloring step, the entirety of the part corresponding to the rest of the pattern and color is not colored on the aluminum surface permeable dye It is also preferable to allow the introduction of various background colors in addition to the color introduction of the pattern of the aluminum product through the deposition coloring step (S200 ') to be deposited by coloring.

This deposition coloring step (S200 ') is applied when it is required to be introduced in various colors in addition to the ground color that has undergone the first anodization of aluminum products, and can be applied in the middle of the silk screen coloring step and the sealing process step if necessary. Part of the pattern and color introduced through the silk screen coloring step is not mixed even if it is deposited on the permeable dye in the deposition step, so it is possible to introduce various colors of the entire background color of aluminum products.

On the other hand, in the detailed description of the present invention has been described with respect to specific embodiments, to those skilled in the art that various modifications are possible without departing from the scope of the invention, such modifications are claimed It is in the range of a base material.

1 is a flow chart of the aluminum anodized multicolored coloring method according to the present invention.

Figure 2 is a view showing an embodiment according to the aluminum anodized multicolor coloring method according to the present invention.

Figure 3 is a flow chart according to another embodiment of the aluminum anodized multicolored coloring method according to the present invention.

* Description of the major symbols in the drawings *

S100: Anodizing step S200: Silkscreen coloring step

S300: sealing step S200 ': deposition step

Claims (5)

Anodizing step (100) for forming an oxide film by anodizing the entire aluminum surface produced by casting or forging; Silk screen coloring step (S200) to implement a variety of patterns and colors required for the aluminum surface in which the disc color is introduced through the silk screen formed with various patterns of the permeable dye; Aluminum sealing anodized multi-color method comprising a; sealing step (S300) for forming a stable oxide film on the surface of the aluminum in which various patterns and colors are introduced through the silk screen coloring step. The method of claim 1, The silk screen coloring step is aluminum anodized multi-color coloring method characterized in that it is repeatedly performed so that two or more patterns and colors. The method of claim 1, The permeable dye is anodized aluminum multicolored coloring method, characterized in that using azo metal complex dye. The method of claim 1, In the anodizing step of the anodizing step, the aluminum anodization multicolored coloring method is characterized in that the aluminum surface is white by applying the sulfuric acid method to form a film to express excellent color when various colors are applied to the aluminum surface. Way The method of claim 1, It characterized in that it further comprises a immersion coloring step (S200 ') for coloring the aluminum corresponding to the remainder of the uncolored aluminum surface through the silk screen coloring step of the aluminum product subjected to the silk screen coloring step before the sealing process step. Aluminum anodization multicolored coloring method.

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