KR19990073370A - Water born inorganic coating material with power type and inorganic coating material for finishing - Google Patents

Abstract

(1) The technical field to which the invention belongs

Powder type inorganic inorganic coating material manufacturing technology using polymer cement and inorganic paint manufacturing technology

(2) Purpose of the invention

It is a powder type aqueous inorganic coating agent that has the characteristics of pollution-free and environmental friendliness. Unlike conventional organic coatings, inorganic ingredients are used as the main raw materials. Industrial waste by-products can be recycled and simply mixed with water for immediate application. It shows adhesiveness, weather resistance, etc., so it can expect resource saving effect.

(3) Composition of invention

As the inorganic binder, white cement is used, which can be used to prepare a coating agent of a desired color using an inorganic pigment, and the amount thereof is suitably 200-350 weight ratio.

As inorganic filler, Flyash, which is obtained as waste by-product from thermal power plant, is used. It reacts with calcium hydroxide generated during hydration of white cement to improve its mechanical properties, and its amount is 10-50 weight ratio.

Hydrophobized silica fume is added to supplement the water resistance of the coating film, which shows not only the filling effect of pores but also high water repellency, which improves water resistance and is added in a 10-35 weight ratio.

In order to prevent cracking due to thickening of the coating film, calcium carbonate is used in an amount of 200-400 by weight and silica sand in an amount of 150-300 by weight.

60-200 weight ratio of re-emulsified powder resin is added for excellent adhesion to the substrate, and inorganic pigments are mixed at 0.1-6 weight ratio to express color, and the amount of mixed water is 20-60 weight ratio with respect to the whole powder.

For the finishing treatment of the coating film coated with the composition to the inorganic polymer finish to complement the adhesion, water resistance, flame resistance.

(4) effects of the invention

As a result of applying the composition to the tile surface and performing the adhesion test, the initial adhesive strength after drying was excellent as 20-23 (kg / ㎠), and the adhesion strength after deposition in water was maintained at 70% or more of the initial adhesive strength.

Description

Waterborne inorganic coating material with power type and inorganic coating material for finishing}

The present invention relates to a powder-based aqueous inorganic coating agent having advantages such as pollution-free, environmentally friendly, etc. Unlike conventional organic paints, the inorganic component is used as a main raw material to supplement the disadvantages of organic resin paints and to recycle industrial waste by-products. It can be applied immediately by simply mixing with water.

The present invention also relates to a composition of a functional inorganic coating agent which is dried at room temperature after application and exhibits excellent performances such as ultra weather resistance, high adhesion, rust resistance, abrasion resistance, impact resistance, chemical resistance, water resistance, antibacterial activity, and flame retardancy.

Therefore, the present invention can be expected at the same time as the interior and exterior finishing materials and plastering materials and uses for the purpose of creating high value added of existing materials such as protection of civil structures, rust prevention effect of metal materials, wood, gypsum board, thread, Schiropol. It can be expected to save resources, labor costs, etc., by replacing the existing organic paints.

It is a technology that is made by combining the technology of polymer cement and the technology of paint. In case of polymer cement coating agent used in the prior art, the problem of cracking due to solidification shrinkage during curing is very weak and the water resistance is very weak as the coating thickness increases. Therefore, when contacting with water directly or indirectly, the coating film is deteriorated and the adhesive strength and surface hardness are rapidly lowered. Therefore, there is a limit to the role of protecting the material. .

In order to improve this problem, there is a patent application for changing the composition of the inorganic powder or densifying the particle size of the filler, but fundamentally it is not effective for the stability against moisture, so cracking, peeling, whitening, etc. There is a problem.

In order to improve the above problems, in the present invention, as the inorganic binder, the cement is used to harden even in the air and water by using a back cement having an extremely low iron content as compared to general portland cement.

Inorganic filler is composed of Flyash, whose main component is SiO ₂ and Al ₂ O ₃ , to induce a reaction with calcium hydroxide generated during cement hydration reaction to improve the surface strength and resistance to moisture by using hydrophobic silica fume. Supplemented.

In addition, to improve physical cohesion, re-emulsified resin powder was used to supplement the flexibility and adhesion of the coating film, and calcium carbonate and silica sand were added to prevent cracking due to thickening of the coating film thickness.

Inorganic pigments are used to show various colors. Especially, it is effective to select pigments having excellent alkali resistance and use them within a certain composition range.

After applying the above composition by mixing water and a certain ratio, it is dried at room temperature for 1 ~ 2 hours or more and coated with an inorganic polymer type transparent coating agent as a finish coating agent, which is excellent in moisture resistance, high adhesion, and no color change. A coating film can be formed.

In the present invention, as the inorganic binder, white cement is used, which is capable of producing a coating agent of a desired color using an inorganic pigment and exhibits strong durability and abrasion resistance because the main component is limestone clay and the like, and has very low iron content compared to general portland cement. The performance is excellent. It is suitable to set it as 200-350 weight ratio of the mixture amount.

As the inorganic filler, Flyash, which is obtained as waste by-product from thermal power plants, is used. Its main components are composed of SiO ₂ and Al ₂ O ₃ to improve the mechanical properties by reacting with calcium hydroxide generated during hydration of the back cement. In addition, by filling between aggregates, the density of the coating film can be made compact by the lubrication action, so that the shrinkage can be reduced by making the pores fine.

It is appropriate to use the amount of 10 to 50 by weight, and when the mixing amount is small, there are huge pores, so the water absorption is very high, and the deterioration of the coating film is easy.

In addition to the above fillers, hydrophobized silica fume is added to supplement the water resistance of the coating film, which not only improves the pore filling effect, but also exhibits a high water repellency against the penetration of moisture, thereby improving the water resistance of the coating film and adding it in a 10 to 35 weight ratio. use.

In order to prevent thickening and subsequent cracking of the coating film, calcium carbonate is mixed at a weight ratio of 200 to 400. The curing speed of the coating film can be controlled, and silica sand used for the same purpose is mixed at a weight ratio of 150 to 300 weight ratio of 0.2 m / m or less. The thickness of a coating film can be made into a thick film.

Re-emulsified powder resin used to impart physical bonding strength to substrates is improved by using acrylic and EVA-based resins to improve adhesion to substrates and flexibility of coatings.The particle size is 30-100μm and PH is 9-12. The usage-amount was 60-200 weight ratio.

Inorganic pigments used for the color of the coating film should be particularly alkali resistance and should not interfere with the hydration reaction of the composition, depending on the color can be used up to 0.1 to 6.0 weight ratio. When a small amount is used, the coloration and hiding power are lowered, and when the excessive amount is used, since the particle size is small, the water is relatively absorbed, so that the strength of the coating film is lowered or the formation of an excellent coating film is difficult due to the delay of curing time.

The amount of the mixed water is different depending on the coating method, the type of material, and the environment of the coating. However, the amount of the mixed water can be mixed up to 20 to 60 weight ratio. The strength may decrease. In order to impart water resistance, water repellency, durability, fouling resistance, acid resistance, flame retardancy, etc., to the coating film coated in the above manner, an inorganic polymer prepared by hydrolyzing silicon-based alkoxide as a starting material is applied as a top coat. Additional effects, such as increased adhesion to the wand, can also be obtained.

The production conditions of the inorganic polymer used herein are summarized as follows.

In order to test the adhesive strength and water resistance of the coating agent prepared in the above manner, the coating was applied as a commercially available tile thickness of 2 mm and then dried at room temperature for 28 days to prepare a sample.

The results of the adhesive strength measured after immersion in water and the adhesive strength after initial drying for three days with respect to the sample produced in the above example and similar products of Japan L and T domestic companies are as follows.

According to the measurement results, in Example 2 and Example 3, the adhesion strength after deposition showed more than two times better results than other products.

Claims (15)

Inorganic pigment is added to the powder mixed with inorganic raw materials such as back cement, calcium carbonate, silica sand, fly ash, silica fume and re-emulsified powder resin, and the powdered aqueous inorganic coating agent composition is used by mixing the mixed water. The powder-based inorganic inorganic coating composition according to claim 1, wherein the back cement is used in a 200-350 weight ratio, and can be used by replacing with alumina cement in the range of 5-20%. The powder-based inorganic inorganic coating composition according to claim 1, wherein calcium carbonate is used in a weight ratio of 200 to 400. According to claim 1, the silica sand is used in a weight ratio of 150-300 is used usually in the size of 0.2m / m or less, but in order to increase the thickness of the coating film and to improve the workability, the powder type, characterized in that can be used up to 5m / m size Aqueous inorganic coating agent composition The powdery aqueous inorganic coating composition according to claim 1, wherein the fly ash is used in a 10-50 weight ratio. The powdered aqueous inorganic coating agent composition according to claim 1, wherein the silica fume is used in a 10-35 weight ratio. The powder-based aqueous inorganic coating composition according to claim 1, wherein the reemulsifying powder resin is used in a 60-200 weight ratio and is composed of acrylic powder alone or EVA-based powder mixture. The powder-based aqueous inorganic coating composition according to claim 1, wherein the inorganic pigment is used in a weight ratio of 0.1 to 6.0, based on the total weight of the powder from 2 to 7. The powder-based aqueous inorganic coating agent composition according to claim 1, wherein the amount of the mixed water is used in an amount of 20-60 weight ratio based on the total amount of powders from 2 to 8. The inorganic polymer coating agent applied to the finish after applying the powder-based aqueous inorganic coating agent of claim 1 is dried with Methyl trimethoxy silane (addition of organic functional silane coupling agent), Colloidal silica, Iso propyl alcohol, water, acid, etc. Inorganic coating agent composition for finishing, characterized in that The Methyl trimethoxy silane of claim 10 is used in a 20-50 weight ratio of which 0.1-3.0% of the organic functional silane coupling agent can be used and the functional group can be used Epoxy group, Amino group, Vinyl group, etc. Inorganic coating agent composition for finishing, characterized in that The inorganic coating agent composition for finishing according to claim 10, wherein colloidal silica is used in a 5-20 weight ratio. The inorganic coating agent composition for finishing according to claim 10, wherein isopropyl alcohol is used in a 20-40 weight ratio, of which 20-70% of methanol can be used. 11. The inorganic coating agent composition for finishing according to claim 10, wherein water is used in a 10-25 weight ratio. The inorganic coating agent composition for finishing according to claim 10, wherein the acid is used by adjusting pH to 3.0-5.5 using one or two or more mixed solutions of acetic acid, nitric acid, hydrochloric acid, and sulfuric acid.