CN103881485A - Preparation method of building coating - Google Patents

Abstract

The invention discloses a preparation method of a building coating. The building coating has good polishability, good adhesiveness and a good waterproof property, and is composed of boric acid, a styrene acrylic emulsion, benzyl bromoacetate, magnesium oxide, polyvinyl alcohol, polyurethane resin, titanium dioxide, a film forming assistant, sodium hexametaphosphate, a dispersant, a thickening agent, heavy-calcium-and-silicon pulverized lime, talcum powder and an antifoaming agent. The building coating adopting an efficient antiseptic can effectively inhibit Aspergillus niger, Aspergillus flavus, Aspergillus versicolor and the like. The coating has the advantages of good mildew resistance, harmlessness to human bodies, low cost, extremely strong adhesion, extremely strong water and ultraviolet resistances, and no peeling, shedding or color change after long-term use in wet environment.

Description

The collocation method of building coating

 

Technical field

The invention belongs to technical field of coatings, be specifically related to a kind of building inside and outside wall, there is the collocation method of the coating of strong adhesive power.

 

Background technology

Coating claims again paint to refer to a class I liquid I or the solid material of coating that body surface can form film under certain conditions and play protection, decoration or other specific functions.Because early stage coating is main raw material mainly with vegetables oil greatly, therefore be called again paint.Now oneself is most of or all replaced vegetables oil for synthetic resins, therefore be called coating.The effect of coating mainly contains 3 points: protection, and decorate, and cover up the defect of product, the value of improving product.

At present, the antiseptic-germicide adopting in dope for inner wall of architecture is mainly the inorganic salt such as mercury salt class, due to the toxicity of himself, can cause certain injury to human body.Other antimicrobial technology are mainly photocatalyst technology, environment is had to certain requirement, and cost are higher.In current a lot of coating formed by auxiliary agent, jade powder, sterilant and water, sterilant is wherein saturated silver-colored solution, and indoor unicellular mushroom is killed to function.

The antibacterial dope for inner wall of architecture providing in such scheme, although have the various bacteria of killing, removes the functions such as peculiar smell, and the material adding is high-tech nano material or precious metal, its complicated process of preparation, and cost is higher.

 

Summary of the invention

The above-mentioned technical problem existing in order to overcome prior art field, the object of the present invention is to provide a kind of collocation method of building coating, coating has extremely strong sticking power and water-fast, UV resistant performance and has mildew-proof function, and harmless, and cost is low.

The collocation method of a kind of building coating provided by the invention, the weight percent of its feed composition of coating and each component is: boric acid l%-6%, benzene emulsion 15%-20%, benzyl acetate bromide 1%-5%, magnesium oxide 3%-5%, polyvinyl alcohol 1%-3%, urethane resin 5%-10%, oyster shell whiting 10%-20%, titanium dioxide 5%-10%, film coalescence aid 0.5%-2%, six inclined to one side sodium sulfate 0. 1%-0. 8%, dispersion agent 0.1%-0. 5%, thickening material 0. 1%-0. 5%, coarse whiting l0%-25%, silica ashes 5%-10%, talcum powder 6%-l0%; Described film coalescence aid is the mixture of alcohol ester-12 and ethylene glycol phenyl ether; Thickening material is the colloid extracting from marine alga; Described dispersion agent contains hydrophilic organic solvent.

The collocation method of building coating provided by the invention, its beneficial effect is, coating anti-mold effect is good, and harmless, cost is low, has extremely strong sticking power and water-fast, UV resistant performance, uses for a long time non-scale, does not come off, nondiscoloration under wet environment.

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Embodiment

Below in conjunction with an embodiment, the collocation method of building coating provided by the invention is described in detail.

 

Embodiment

The collocation method of the building coating of the present embodiment, the weight percent of its feed composition of coating and each component is: boric acid 2.5%, benzene emulsion 15%, benzyl acetate bromide 5%, magnesium oxide 3%, polyvinyl alcohol 3%, urethane resin 7%, oyster shell whiting 10%, titanium dioxide 7%, film coalescence aid 1%, six inclined to one side sodium sulfate 0.5%, dispersion agent 0. 5%, thickening material 0. 5%, coarse whiting 25%, silica ashes 10%, talcum powder l0%.Described film coalescence aid is the mixture of alcohol ester-12 and ethylene glycol phenyl ether; Thickening material is the colloid extracting from marine alga; Described dispersion agent contains hydrophilic organic solvent.

Claims (4)

1. the collocation method of a building coating, it is characterized in that: the weight percent of its feed composition of described coating and each component is: boric acid l%-6%, benzene emulsion 15%-20%, benzyl acetate bromide 1%-5%, magnesium oxide 3%-5%, polyvinyl alcohol 1%-3%, urethane resin 5%-10%, oyster shell whiting 10%-20%, titanium dioxide 5%-10%, film coalescence aid 0.5%-2%, six inclined to one side sodium sulfate 0. 1%-0. 8%, dispersion agent 0.1%-0. 5%, thickening material 0. 1%-0. 5%, coarse whiting l0%-25%, silica ashes 5%-10%, talcum powder 6%-l0%.

2. according to the collocation method of the building coating described in claim l, it is characterized in that: described film coalescence aid is the mixture of alcohol ester-12 and ethylene glycol phenyl ether.

3. according to the collocation method of the building coating described in claim l, it is characterized in that: described thickening material is the colloid extracting from marine alga.

4. according to the collocation method of the building coating described in claim l, it is characterized in that: described dispersion agent contains hydrophilic organic solvent.