KR100893290B1 - Coating composition for self cleaning - Google Patents

Abstract

The present invention relates to an antifouling coating composition comprising a titanium compound dispersion sol (a) of alcohol, titanium compound and stabilizer and a silicon compound binder (b) of alcohol, silicon compound and stabilizer.

The antifouling coating composition of the present invention is a mixture of a titanium compound dissolving sol (a) and a silicon compound binder (b), and the galvanized steel sheet or aluminum composite panel, PC panel and the like used as a finishing material of the ceiling or wall of building interior materials Coating on the same panel has functions such as pollution prevention and air purification.

Alcohol, titanium compound, stabilizer, silicon compound, anti-pollution, coating, composition, galvanized steel sheet

Description

Anti-fouling coating composition

Figure 1 is a graph of the NOx removal test results of galvanized steel sheet to which the antifouling coating composition of the present invention is applied

Figure 2 is a graph of the NOx removal test results of galvanized steel sheet of Comparative Example 1

The present invention relates to an antifouling coating composition comprising a titanium compound dispersion sol (a) of alcohol, titanium compound and stabilizer and a silicon compound binder (b) of alcohol, silicon compound and stabilizer.

The antifouling coating composition of the present invention is a mixture of a titanium compound dissolving sol (a) and a silicon compound binder (b), and the galvanized steel sheet or aluminum composite panel, PC panel and the like used as a finishing material of the ceiling or wall of building interior materials Coating on the same panel has functions such as pollution prevention and air purification.

Panels made of materials such as aluminum, steel and stainless steel have been commonly used for interior and exterior construction. When such a panel is used as a building interior material, not only the surface is contaminated by dust, etc., but also bacteria, mold, etc. are proliferating, which acts as a harmful factor for respiratory diseases and hygiene.

In order to overcome this problem, a panel coated with a photocatalyst such as titanium dioxide has recently been developed, but the titanium dioxide coating liquid used must be heat-treated at a high temperature of 100 ° C. or higher, or the titanium dioxide particles dispersed in the coating liquid. There was a problem that the transparency of the coating layer formed on the panel after the coating is not homogeneous because it is not uniform. In addition, since the pH of the conventional titanium dioxide coating solution is strongly acidic, the work such as coating process is very harmful to the operator.

The inventors of the present invention continue to solve the problems of the conventional titanium dioxide coated panel, as a result of coating the panel with a TiO ₂ -SiO ₂ coating solution invented an antifouling coating composition having a function of antifouling, air purification, etc. It came to the following.

That is, an object of the present invention is to provide a TiO ₂ -SiO ₂ coating composition for galvanized steel sheet or panel, which is cured at room temperature as a composition having functions such as pollution prevention and air purification.

For the above purpose, the present invention provides a TiO ₂ -SiO ₂ coating composition comprising a titanium compound dispersion sol (a) of alcohol, titanium compound and stabilizer and a silicon compound binder (b) of alcohol, silicon compound and stabilizer. It is characterized by.

Here, the titanium compound dispersion sol (a) is composed of 85 to 98.9% by weight of alcohol, 1 to 12% by weight of titanium compound and 0.1 to 3% by weight of stabilizer, the silicon compound binder (b) is 87 to 98.9% by weight of alcohol %, Silicon compound 1 to 10% by weight and stabilizer 0.1 to 3% by weight is preferable.

In addition, the titanium compound dispersion sol (a) and the silicon compound binder (b) is preferably composed of 1: 1 to 10 (weight ratio).

The photocatalyst structure of the panel to which the composition of the present invention is applied is composed of a layer formed by covalent bonding of a silane-based binder and titanium dioxide having photocatalytic activity to a hydrophobic galvanized steel panel.

The TiO ₂ -SiO ₂ coating composition cured at room temperature used in the present invention has a titanium compound in the form of nanoparticulates dispersed at 1 to 12% by weight, and a stabilizer selected from inorganic acids or mixtures thereof, which are widely used as acid catalysts, is 0.1. It includes 3 wt%, it characterized in that it comprises a silicon compound and a solvent alcohol that can increase the adhesion of the coating composition.

The alcohol is a C1-C4 lower alcohol such as methanol, ethanol, propanol, isopropanol, butanol.

The stabilizer may include inorganic acids such as nitric acid and hydrochloric acid, or mixtures thereof, which are preferably used as acid catalysts. The amount of stabilizer added may vary depending on the molecular weight of the stabilizer. When the titanium compound colloidal solution is generally 100% by weight, the amount of stabilizer may be 0.1% by weight or more, but 0.1% by weight or less may not be sufficient to stabilize the particles. It becomes bigger. Preferably it is good to add 1 to 3% by weight, it is expensive if more than 3% by weight.

The silicon compound may include water glass (Sodium silicate), Tetra-ethyl orthosilicate (TEOS), Tetra-methyl orthosilicate (TMOS), or a mixture thereof. When the organosilicon oxide is further included, the adhesion to the panel is further improved.

The titanium compound is a titanium dioxide compound as titanium (IV) isopropoxide (tetraisopropanol titanium), titanium (IV) butoxide, titanium (IV) ethoxide (titanium tetraethanolate), titanium (IV) methoxide, titanium (IV) Stearates or mixtures thereof are preferred.

The titanium dioxide compound is added in conversion so that the concentration of nanoparticles of titanium dioxide produced in the coating composition is 1 to 12% by weight. If the dispersion amount of titanium dioxide nanoparticles is less than 1% by weight, an appropriate coating layer is not formed during coating, and a solution having 12% by weight or more dispersed therein is suitable because the dispersed titanium dioxide nanocolloids may aggregate to increase the particle size.

In addition, the titanium compound dispersion sol (a) and the silicon compound binder (b) is preferably composed of 1: 1 to 10 (weight ratio).

Here, when the content of the silicon compound binder (b) is less than that of the titanium compound dispersing sol (a), it is not good to have a long-term contamination prevention effect due to the weakening of the adhesive strength after coating, and the content of the silicon compound binder (b) is not good. If it is 10 (weight ratio) or more, it may not be good to peel off a part of the panel after coating.

 In addition, if necessary, a silicon compound, an aluminum compound, a zirconium compound, an iron compound, or a mixture thereof may be added and reacted with the titanium dioxide compound.

The antifouling coating composition of the present invention may be prepared by the following steps.

A) sequentially adding a titanium compound, a stabilizer selected from an organic acid having an alcohol group and a ketone group, and a salt thereof to a alcohol to perform a Sol-gel reaction to obtain a titanium compound dispersion sol (a);

B) adding a silicon compound and an inorganic acid as a stabilizer to the alcohol and performing a sol-gel reaction to obtain a silicon compound binder (b); And

C) mixing the produced titanium compound dispersing sol (a) and the silicon compound binder (b) in a constant ratio

Hereinafter, the configuration of the present invention through the production examples and examples in more detail.

Preparation Example 1 Preparation of Titanium Compound Dispersed Sol

After adding 25 g of HNO ₃ (67%) and tetrabutyl ortho titanate (TBOT), one of titanium compounds, to 2.5 L of 95% ethyl alcohol, the rotation speed of the stirrer was fixed at 1000 rpm, and the temperature conditions were set as follows.

Sol-gel synthesis was performed for 30 minutes at 80 ° C. and 2 hours at 90 ° C., and then cooled to room temperature to prepare a transparent titanium oxide dispersion sol through an outlet.

Preparation Example 2 Preparation of Silicon Compound Binder

200 g of water glass and 5 g of HNO ₃ (67%) were added to 1 kg of ethanol, and the mixture was stirred for about 10 minutes, and the solution passed through the cation exchange resin was stirred for 2 hours to prepare a silicon compound binder.

Example

TiO ₂ -SiO ₂ sol, which is the antifouling coating composition of the present invention, was prepared by mixing and stirring the titanium compound dispersion sol and the silicon compound binder prepared in Preparation Example 1 and Preparation Example 2 at 1: 2.5.

Test Example 1: NOx Removal Test

The TiO ₂ -SiO ₂ coating solution of the antifouling coating composition of the present invention prepared in the above example was spray coated on a galvanized steel sheet by a conventional method.

The NOx test on the coated galvanized steel sheet was measured by the JIS R 1701-1 method, and the results are shown in Table 1 and FIG. 1.

Item Width, length (mm) 49.8 × 98.3 Thickness (mm) 0.5 NO _X adsorption amount μmol 0.00 NO removal amount μmol 7.18 NO ₂ production amount μmol 5.14 NO _X Desorption μmol 0.02 NO _X removal μmol 2.02

As can be seen in Table 1 and Figure 1, the decomposition rate of the coated galvanized steel sheet TiO ₂ -SiO ₂ coating solution according to the present invention was excellent.

Test Example 2: accelerated weathering test

The TiO ₂ -SiO ₂ coating solution of the antifouling coating composition of the present invention prepared in the above example was spray-coated on a galvanized steel sheet and an Al composite panel by a conventional method.

Accelerated weathering test of the coated galvanized steel sheet and Al composite panel was measured by JIS B 7753 method and the results are shown in Table 2.

Test period 200hr 500hr 1000hr materials Coating One 2 One 2 One 2 Galvanized steel sheet TiO ₂ -SiO ₂ clear clear clear clear clear clear Al composite panel TiO ₂ -SiO ₂ clear clear clear clear clear clear

As can be seen in Table 2, the weather resistance of the galvanized steel sheet and Al composite panel coated with the TiO ₂ -SiO ₂ coating solution according to the present invention was excellent. Normally, the accelerated weathering test results determine that 200hr is one year of external exposure.

Comparative Example 1 NOx Removal Test

A photocatalyst product currently marketed in Korea (Japan Kon corporation, TPX-85) was coated on a galvanized steel sheet and measured in the same manner by JIS R 1701-1, and the results are shown in Table 3 and FIG. 2.

Item Width, length (mm) 49.8 × 98.3 Thickness (mm) 0.5 NO _X adsorption amount μmol 0.00 NO removal amount μmol 7.16 NO ₂ production amount μmol 5.91 NO _X Desorption μmol 0.01 NO _X removal μmol 1.24

As can be seen in Table 3 and FIG. 2, the performance of Comparative Example 1 was lower than that of the TiO ₂ -SiO ₂ coating solution coated galvanized steel sheet according to the present invention.

More specifically, the present invention according to NO _X desorption quantity can be seen that Comparative Example 1 as compared to twice, the present invention in the NO _X removal is improved more than Comparative example 1 80%.

Comparative Example 2: Accelerated Weathering Test

The photocatalyst products currently marketed in Korea (Japan Kon corporation, TPX-85) were coated on galvanized steel sheets and Al composite panels and measured in the same manner by JIS B 7753. The results are shown in Table 4.

Test period 200hr 500hr 1000hr materials Coating One 2 One 2 One 2 Galvanized steel sheet TPX-85 clear clear clear Slightly gloss deterioration Slightly gloss deterioration Glossiness Al composite panel TPX-85 clear clear Slightly gloss deterioration clear Glossiness Slightly gloss deterioration

As can be seen in Table 4, the weather resistance of the galvanized steel sheet and Al composite panel coated with the TiO ₂ -SiO ₂ coating solution according to the present invention was found to be superior to the commercially available products (Comparative Example 2).

As described above, according to the present invention, a room temperature-curable antifouling coating composition in which a titanium compound dissolving sol and a silicon compound binder are suitably blended has excellent NOx removal rate and strong hardness even in accelerated weather resistance, thereby preventing contamination and air purification. It can be used as a panel capable of performing.

Claims (8)

delete In the antifouling coating composition comprising a titanium compound dispersion sol (a) of alcohol, titanium compound and stabilizer and a silicon compound binder (b) of alcohol, silicon compound and stabilizer, The titanium compound dispersion sol (a) is composed of 85 to 98.9% by weight of alcohol, 1 to 12% by weight of titanium compound and 0.1 to 3% by weight of stabilizer, the silicon compound binder (b) is 87 to 99.8% by weight of alcohol, 1 to 10% by weight of silicon compound and 0.1 to 3% by weight of stabilizer, The titanium compound is titanium (IV) butoxide, titanium (IV) ethoxide (titanium tetraethanolate), titanium (IV) methoxide, titanium (IV) styrate, or a mixture thereof, The silicon compound is water glass (Water glass, Sodium silicate), characterized in that the anti-fouling coating composition. The method of claim 2, The titanium compound dispersion sol (a) and the silicon compound binder (b) is 1: 1 to 10 (anti-fouling) coating composition, characterized in that consisting of The method of claim 2, The alcohol is antifouling coating composition, characterized in that methanol, ethanol, propanol, isopropanol or butanol delete The method of claim 2, The stabilizer is an inorganic acid or a mixture thereof, characterized in that the antifouling coating composition delete Galvanized steel sheet coated with the antifouling coating composition of claim 2

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