JPS63189479A - Metallic coating material composition for electrostatic coating - Google Patents

Abstract

PURPOSE:To obtain the titled composition, containing specific particulate and scaly aluminum powder and suitable for electrostatic coating of automobiles, household appliances, etc. CONSTITUTION:The aimed composition obtained by containing (A) particulate aluminum powder having <=100mum major axis (a) and relations of a>b>c and 1<=a/c<=5 (b is the minor axis and c is the thickness) with (B) scaly aluminum powder having relations of a>b>c and a/c>5 in a metallic coating material composition. Furthermore, the component (A) is contained in an amount of >=3wt.% based on the total amount of the aluminum powder.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a metallic paint composition for coating automobiles, household products, etc. A metallic paint composition suitable for painting is used.

[Prior Art] Metallic coatings have traditionally been widely used for coating the surfaces of automobiles, home appliances, and the like. This metallic paint
First, apply a metallic paint containing aluminum powder,
This is done using a two-coat method in which clear paint is further applied to the surface.

Electrostatic coating is often used as a method for applying these paints. This quietness? ! f-painting is a method of painting by charging the discharged paint particles with an electric charge and attracting and adhering them to the object to be painted, which is at ground potential.
Compared to air spray painting, paint loss can be reduced and painting quality can be stabilized.

By the way, aluminum powder is a conductive substance, and when applying electrostatic coating with metallic paint, the high voltage applied to the tip of the electrostatic coating machine escapes through the aluminum powder through the paint flow path (hereinafter referred to as electrostatic leakage). ), there is a problem that sufficient electrostatic effect cannot be obtained. In order to improve such problems, JP-A-56-100865 discloses aluminum powder treated with aminosilane. Furthermore, JP-A-60-121201@ discloses aluminum powder coated with a resin. These paints are made by treating the aluminum powder itself to reduce its conductivity, but there are also known paints in which the conductivity of the paint itself is reduced by adding additives.

[Problems to be Solved by the Invention] Treating aluminum powder with 7-minosilane is time-consuming and disadvantageous in terms of man-hours.

Furthermore, aluminum powder coated with a resin has a problem in that the metallic luster is reduced, resulting in a poor metallic feel. Furthermore, as for additives, there is still no known additive that completely solves electrostatic leakage with a small amount of addition, and when the amount of addition is increased, the physical properties of the coating film, painting workability, etc. often deteriorate.

The present invention provides a metallic coating composition that prevents electrostatic leakage and overcomes the above-mentioned problems.

[Means for Solving the Problems] The metallic coating composition for electrostatic coating of the present invention is a metallic coating composition containing aluminum powder, wherein the aluminum powder has a major axis a1 a minor axis and a thickness C. , a is 100 μm or less a>b>c and 1≦a/c≦5
It is characterized by consisting of granular aluminum powder having the relationship of: a>b>c and scaly aluminum powder having the relationship of a/c>5.

Aluminum powder for metallic paints generally has a diameter of several μm.
It has a scale shape of 1 μm or less and a thickness of 1 μm or less. The present inventor caused electrostatic leakage in a metallic paint containing such aluminum powder and observed the leaked area. In the area where electrostatic leakage occurs, as shown in FIG. 3, aluminum powders are connected to each other to form an escape route for charges. Upon closer observation, it was discovered that the acute angles of the aluminum powder were connected. In other words, it has been revealed that due to the electrical characteristics, electric charge is concentrated at the acute angle portion of the aluminum powder, and that portion is connected to other aluminum powder, and as these connections grow, electrostatic leakage occurs. The present invention is based on this knowledge and is the result of intensive research.

The metallic coating composition of the present invention contains two types of aluminum powder: scaly aluminum powder and granular aluminum powder. The flaky aluminum powder used is the same as that conventionally used, and its shape has a relationship between the major axis a and the thickness C such that a/c>5. Generally, it has a shape with a diameter of several μm to several tens of μm and a thickness of 1 μm or less.

The greatest feature of the present invention is that it contains granular aluminum powder. As shown in FIGS. 1 and 2, this granular aluminum powder has a major axis a1 a minor axis and a thickness C.
However, a is 100 μm or less a> or less c and 1≦a/c≦5
Those in the relationship are used. If the major axis a exceeds 1100a, the smoothness of the coated surface will be impaired. Usually 1
A particle size distribution of ~100 μm is used. Also a/
c>5 shows almost no electrostatic leakage prevention effect.

It is desirable that the granular aluminum powder is contained in an amount of 3% by weight or more in 100% by weight of the total aluminum powder contained in the coating composition. If this ratio is less than 3%, the electrostatic leakage prevention effect will be reduced. Note that the upper limit of this amount can be variously selected depending on the desired metallic feel and the like.

Other elements constituting the metallic coating composition of the present invention include resins, pigments, dyes, solvents, and additives. As the resin that makes up the majority of the metallic coating composition, conventionally used resins can be used depending on the purpose, such as acrylic resin, alkyd resin, melamine resin, epoxy resin, and isocyanate resin. Also, conventional paint compounding materials such as pigments, solvents, and additives can be selected and used depending on the purpose.

[Function] The metallic coating composition for electrostatic coating of the present invention has granular aluminum powder in the aluminum powder. When a high voltage is applied during electrostatic coating, as shown in FIG. 4, the scale-like aluminum powder 1 begins to grow as charges are concentrated at its acute angles and connected. However, when the scaly aluminum powder 1 connects with the granular aluminum powder 2 contained therein, the granular aluminum powder 2 has fewer acute angles and is rounded compared to the scaly aluminum powder 1, so the charge is not concentrated but dispersed. do. This prevents the aluminum powder from connecting with other aluminum powders and stops the growth there, thereby preventing electrostatic leakage.

[Effects of the Invention] According to the metallic coating composition of the present invention, since electrostatic leakage is prevented by the granular aluminum powder, electrostatic coating properties are extremely improved (7). In addition, since the shape of the aluminum powder has been improved, it does not impair the metallic feel or painting workability. Furthermore, since there is no need for man-hours such as processing of aluminum powder, problems in terms of cost can also be avoided.

[Example] The following is a concrete explanation using Examples. Note that all parts mentioned below refer to heavy items.

(Example 1) Acrylic resin solid content (“Acridic 47-712J
Dainippon Ink Chemical Co., Ltd.) 25° 2 parts, melamine resin solid content ([Super Beckamine G-821-60J
Dainippon Ink & Chemicals Co., Ltd.) 9 parts, scaly aluminum powder solid content (major axis a 5-50 Ilm N minor axis b
1 to 50 μm, thickness cQ.

1 to 1 μm1 [Alpaste 713ONJ bundle] manufactured by Hitsuji Aluminum Co., Ltd.) 3.8 parts, solid content of granular aluminum powder (major axis 85 to 50 μm, short axis b1 to 50 μm, thickness C1 to 10 μm, 0.2 parts, sedimentation prevention 2 parts of Dishalon 6900-20XJ manufactured by Kusumoto Kasei Co., Ltd., 38 parts of ethyl acetate, 17.8 parts of i~luene, and 4 parts of xylene were thoroughly stirred with a disper to prepare the metallic paint of Example 1. A composition was prepared.

As electrostatic coating, use a REA auto electrostatic coating gun (manufactured by Nippon Landsburg Co., Ltd.) to apply the above metallic paint composition to a 500mm x 500mm intermediate coated and water-polished test panel at a distance of 30cm! llb Hirosei Ti coating was applied. The coating conditions were: the applied voltage was -40, -
Three levels: 50KV and -60, painting air pressure 4K
The discharge was performed at a discharge rate of 1300 mρ/min. Then, visually judge the adhesion of the paint to the test panel,
Furthermore, the coating film thickness was measured and the quality of electrostatic coating properties is shown in the table.

In the table, test panels whose surfaces were completely coated and had a predetermined film thickness of 1q were marked as O1, and those with poor coating were marked as x.

(Example 2) A coating composition was prepared in the same manner as in Example 1, except that the amount of scaly aluminum powder was 3.92 parts and the amount of granular aluminum powder was 0.08 parts. The results are shown in the table after electrocoating.

(Conventional Example) A coating composition was prepared in the same manner as in Example 1 except that the amount of flaky aluminum powder was 4.00 parts and granular aluminum powder was not used, and electrostatic coating was performed in the same manner and the results are shown in the table. show.

(Evaluation) It is clear from the table that the metallic coating composition of Example 1, in which 5 weight percent of granular aluminum powder was contained in the total aluminum powder, was excellent in static 71 paintability at all three levels of applied voltage. This is because no electrostatic leakage occurred. In addition, in the metallic paint composition of Example 2 in which 2 m% of granular aluminum powder was contained in the total aluminum powder, electrostatic leakage occurred at the commonly used applied voltage of -60 KV, resulting in poor electrostatic coating properties. However, compared to conventional metallic coating compositions, it has excellent electrostatic coating properties at an applied voltage of 150 KV.

That is, it is clear that this result is due to the effect of blending the granular aluminum powder into the coating composition of the example.

[Brief explanation of the drawing]

1 and 2 show granular aluminum powder, FIG. 1 being a plan view thereof, and FIG. 2 being a front view thereof. FIG. 3 is an explanatory diagram for explaining the electrostatic leak phenomenon of a conventional metallic paint composition, and FIG. 4 is an explanatory diagram for explaining the electrostatic leak phenomenon of the metallic paint composition of the present invention. 1... Scaly aluminum powder 2... Granular aluminum powder Patent applicant Aisin Kako Co., Ltd. Agent Patent attorney Ichi Okawa Patent attorney Akio Maruyama Figure 3 Figure 4

Claims (2)

[Claims] (1) A metallic coating composition containing aluminum powder, wherein the aluminum powder has a major axis a, a minor axis b, and a thickness c, in which a is 100 μm or less a>b>c and 1≦a/c
Granular aluminum powder with a relationship of ≦5 and a>b>c
A metallic coating composition for electrostatic coating, characterized in that it is comprised of a scaly aluminum powder having a relationship of a/c>5. (2) Granular aluminum powder is the whole aluminum powder 1
The metallic coating composition for electrostatic coating according to claim 1, which contains 3% by weight or more in 00% by weight.