JPS62182298A - Aluminum product having antibacterial or antimold anodic oxide film - Google Patents

Abstract

PURPOSE:To obtain an Al product having an antibacterial or antimold anodic oxide film by filling an antibacterial or antimold agent into the micropores in an anodic oxide film on Al or an Al alloy. CONSTITUTION:Al or an Al alloy is immersed in a soln. contg. one or more among sulfuric acid, oxalic acid and phosphoric acid to form an anodic oxide film on the surface. Antibacterial or antimold activity is provided to the anodic oxide film by filling an antibacterial or antimold agent into the micropores in the film. 10,10-Oxybisphenolxyarsine, 2,4,4'-trichloro-2-hydroxydiphenyl ether, pentachlorophenol, pentachlorophenol sodium or a mixture of such compounds may be used as the antibacterial or antimold agent.

Description

[Detailed Description of the Invention] 3. Detailed Description of the Invention (Field of Industrial Use) The present invention is applicable to vehicles, hospitals, bathrooms, beauty salons, washrooms, [
This product relates to aluminum products with anodized coating used for OJ cells, equipment in sterile rooms, wall materials, sashes, handrails, etc.

(Conventional technology) Conventionally, anodic oxide film aluminum products have been used for vehicles, hospitals, bathrooms, barber/beauty salons, washrooms, home rooms, sterile rooms (equipment, wall materials, satsushi, etc.) It is used.

Aluminum products with an anodized film not only give a sanitary appearance, but also have a stable oxide film formed on the surface and excellent corrosion resistance and weather resistance.

(Problems to be solved by the invention) In the above-mentioned conventional anodic oxide film A.1 aluminum product,
The problem is that no consideration is given to the growth of bacteria and mold. In particular, the oxide film formed on the surface of aluminum products (L) is porous and has structural characteristics that allow bacteria and mold to breed easily.
It is desired to be able to easily set 1'j to J3.

The present invention is an attempt to solve the above problems.

(Means for solving the problem) The micropores of the anodic oxide film of aluminum or aluminum alloy are impregnated with an antibacterial agent or antifungal agent to impart antibacterial or antifungal properties. Antibacterial and anti-mildew positive 44
This is an NJ aluminum product with an oxide film.

(Example) In FIG. 1, an oxide film 12 made of aluminum oxide is formed on the surface of a bare metal 11 made of aluminum or an aluminum alloy. As a characteristic of the anodic oxide film, the oxide film 12 has a large number of micropores 13 with a diameter of about 100 to 300 diameters that open toward the outside. An antibacterial agent 14 (or antifungal agent) is attached to the oxide film 12 so as to cover it from the outside.

The anodic oxide film 124 is formed, for example, as follows. Mineral acids such as sulfuric acid, phosphoric acid, and chromic acid, silicic acid such as oxalic acid and malonic acid, or mixed acids thereof, or alkaline aqueous solutions such as sodium hydroxide and sodium carbonate are used as electrolytes, and the current density is 1 A/dlT1 ~ A direct current or pulse voltage is applied at 6 A/dm2 (voltage 5 V to 100 V), and electrolysis is carried out for 120 minutes to form a positive 44i oxide film 12.

As the antibacterial agent 14 (or antifungal agent), the following chemicals are used.

10,10'-:t=I cibisphenol:Vsiarsin, 2,/'l,/I'-t-lik[TI l':'I
-2--Hydroxydiphenyl ether, pentacro[]nophenolbentaf[''[1phenol-1-lium, 2.2--
Methylenebis-4 monochlorophenol, 2,2'-dihydroxy-5,5'-dicyclo[]rodiphenylmethane, 1-'Axy3-methyl-4-isopropylbenzene, 2-(4-thianzole)benzimidazole, 2 .4,5.6-tetrachloroisophthalonitrile, 2.2-thiobis-4,6-dichlorophenol, dodecyl bis(hydroxyether) dioquidyl ammonium bosphate, imazalil sulphate, N (Full A1) Dichloro 1 rice glutio A)-phthalimide, N-dimedyru N'-F], nil-(N--)[10 dichloro 1 rice glutio)-sulf 1mide.

J3, the above-mentioned chemicals are appropriately selected depending on the desired antibacterial or anti-magnetic properties, and the above-mentioned chemicals are used alone or in mixtures.

Does the oxide film 12 contain 1/1 antibacterial agent (or antifungal agent)? In order to avoid μ, the following method is adopted.

(Al-electron 4 method; The above antibacterial agent 1 dissolved in organic
4 (or antifungal agent) by electrophoresis by C1.
Both are impregnated with the oxide film 12. With these 51 people, there is an advantage that the antibacterial agent 14 (or antifungal agent) can easily penetrate into the inside of the minute 11I hole 13 where the acid generation 1912 is small.

(b) Immersion method: The base metal 11 on which the oxide film 12 has been formed is immersed in a solution of a proprietary solvent in which the antibacterial agent 14 (or antifungal agent) has been dissolved.

(C) Coating method: Fi is a solvent solution in which the antibacterial agent 14 (or antifungal agent) is dissolved, and the solution is applied to the surface of the oxide film 12.

The oxide film 12 impregnated with the antibacterial agent 14 (or antifungal agent) may be subjected to a 1.1 hole treatment using boiling water or steam.

The anodic oxide film 12 coated by the above method is applied to aluminum products [for example, middle wheels, hospitals, bathrooms, laboratories, etc.]
Used for beauty salons, washrooms, toilets, equipment preparation in sterile rooms, wall materials, T-Narashi, 1,000 yen, etc.

The aluminum product (4'L/, formed on the surface of the aluminum product)
: Since the acid 1 arsenic film 12 is stable, it is self 4 Q +
'1. , hardness, 1f wear resistance, etc. are outdated.
<r<, acid production? Since Iψ12 contains antibacterial agent 14 (or antifungal agent), it has antibacterial and antifungal properties. Therefore, there are 13 bacteria and symptoms, so i! It's like a cow.

Further, an anti-1η agent 14 (
or anti-mold agent), the strength of the anti-bacterial agent 14 is high. When the surface of the aluminum product comes into contact with the surface of the aluminum product, the antibacterial agent 14 is removed, and the antibacterial agent 14 is ultimately left in the micropores 13, so that the antibacterial and anti-mildew effect is lost. Lasts for a long time.

The antibacterial agent 14 does not need to be completely filled in the micropores 13; it is effective if it enters the micropores 13 to some extent.

Further, after forming an antibacterial and antifungal anodic oxide film on aluminum, the above-mentioned antibacterial and antifungal agent alone or in a mixture is further added thereto, and 1=1611 coated, sprayed, immersed, or electrodeposited. It is also possible to form an antibacterial/antifungal composite film 15 by applying a coating to the anodized film (FIG. 2).

As products that have been subjected to surface treatment on aluminum, either only an anodic oxide film or a composite film of an anodized film and a paint film have been widely used depending on the purpose. This method can be used for surface treatment of any product and has great utility value.

(Fe light effect) Anodic oxide film 12 of aluminum or aluminum alloy
The micropores 13 are impregnated with an antibacterial agent 14 or a fungicide,
It has antibacterial or antifungal properties! -y, so the next effect is clear 1 no I.

(a) Anodic oxide film 12 (Aluminum product with excellent antibacterial and anti-mildew properties, with excellent corrosion resistance, hardness, and abrasive properties in a gradual progression) I can do that. In other words, it has excellent durability and i! It is possible to make 11 raw aluminum products.

(b) @ Antibacterial agent 14 (
or a fungicide), the adhesion strength of the antibacterial agent 14 is high. That is, even if a person's hand or the like comes into contact with the surface of an aluminum product, the antibacterial agent 14 is difficult to separate, and eventually the micropores 1
Since the antibacterial agent 1/I is left in the bottle, the antibacterial and antifungal effects will last for a long time! ■Continued.

(C) Since the antibacterial agent or antifungal agent is filled only in the anodic oxide film of the 19 surface layers, the amount of antibacterial agent or antifungal agent used can be reduced.

In addition, according to the handwritten examples of forming an antibacterial and antifungal composite film, in addition to excellent resistance, it also has excellent antibacterial and antifungal properties due to the effects of the antibacterial and antifungal agent in the coating. In terms of Ai 111J, the paint film disappears or is missing? X. When scratches occur, the antibacterial and antifungal agents in the Ayu-Kakeka film are effective. 3. In other words, these synergistic effects can improve the durability of Nagato. .

[Brief explanation of drawings]

Figure 1 shows the antibacterial and antibacterial Bamboo NT oxide film produced by Kibimei.
1. A vertical cross-sectional view of an aluminum product. Figure 2 shows another example of applying a coating film to form an antibacterial/antibacterial composite skin. FIG. 12... Resistant coating, 13... Micropores, 14... Antibacterial agent (or anti-release agent) Applicant 1] Ki Aluminum Industry Co., Ltd. Japan Aluminum Ceramics Co., Ltd. Agent Patent attorney Tadataka Oishiki 1・-′, 11.1:′ ′ Ken 1 “1 Figure 1 Figure 2

Claims (3)

[Claims] (1) Antibacterial and antifungal anodic oxide film characterized by impregnating the micropores of the anodic oxide film of aluminum or aluminum alloy with an antibacterial agent or antifungal agent to impart antibacterial or antifungal properties. Aluminum products. (2) Antibacterial and antifungal anodic oxidation according to claim 1, wherein the anodic oxide film is an anodized film formed in a sulfuric acid bath, an oxalic acid bath, or a single or mixed solution of phosphoric acid. Coated aluminum products. (3) The above antibacterial agent or antifungal agent is; 10,10'-oxybisphenoloxyarsine, 2,4,4'-trichloro-2'-hydroxydiphenyl ether, pentachlorophenol, sodium pentachlorophenol, 2,2' -methylenebis-4-chlorophenol, 2,2'-dihydroxy-5,5'-dichlorodiphenylmethane, 1-oxy-3-methyl-4-isopropylbenzene, 2-(4-thianzole)benzimidazole, 2,4 , 5,6-tetrachloroisophthalonitrile, 2,2'-thiobis-4,6-dichlorophenol, dodecyl bis(hydroxyether) dioctyl ammonium phosphate, imazalyl sulfate, N(fluorodichloromethylthio)-phthalimide, N- The antibacterial and antifungal anodized aluminum product according to claim 1, which is dimethyl-N'-phenyl-(N' fluorodichloromethylthio)-sulfamide alone or as a mixture.