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Acid rain-resistant antifouling aqueous nanometer polyurethane exterior wall finish

A water-based polyurethane and acid rain-resistant technology, which is applied in polyurea/polyurethane coatings, antifouling/underwater coatings, paints containing biocides, etc., can solve the problem of reducing building decoration requirements, reducing the decorativeness of paint films, and poor acid resistance. Good and other problems, to achieve excellent chemical properties such as acid and alkali resistance, increase strength and smoothness, and excellent gloss and color retention

Inactive Publication Date: 2012-06-20
肇庆千江高新材料科技股份公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

For example, the surface of the paint corroded by acid rain will be powdered, peeled off, foamed and yellowed, which greatly reduces the decoration requirements of buildings and affects the durability of the paint.
[0006] The reason for the pollution of exterior wall paint is that the wall surface is uneven, and the dust in the air entrained by rainwater falls to the surface of the paint film. There are gaps on the surface of the paint film, and small pollutants invade into the coating with the rainwater. It will stay in the paint film and form permanent pollution; in addition, the glass transition temperature of the base material used in exterior wall paint is low, and it is easy to become soft and sticky after being heated, or the coating is softened due to rainwater immersion, and the softened paint The film is more likely to absorb pollutants in the air, and pollution greatly reduces the decorativeness of the paint film
[0007] The current water-based architectural coatings are mainly based on styrene-acrylic emulsion and pure acrylic emulsion. The acid resistance of styrene-acrylic emulsion and pure acrylic emulsion is not good, so that the acid resistance of the finished coating is not good.
In addition, ordinary solvent-based polyurethane coatings use a large number of weakly alkaline pigments and fillers, such as calcium carbonate, aluminum silicate, etc., which will react chemically when encountering acid rain in nature. Long-term acid rain corrosion, the paint film is prone to discoloration, reduced adhesion, blistering, peeling and other disadvantages; at the same time, because the paint contains toxic solvents, it seriously pollutes the environment

Method used

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  • Acid rain-resistant antifouling aqueous nanometer polyurethane exterior wall finish
  • Acid rain-resistant antifouling aqueous nanometer polyurethane exterior wall finish
  • Acid rain-resistant antifouling aqueous nanometer polyurethane exterior wall finish

Examples

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Effect test

preparation example Construction

[0037] 1. Preparation of main paint: add water according to the weight of the example, and put in dispersant, thickener, wetting agent, propylene glycol, and defoamer in sequence at a speed of 300 to 500 rpm, and disperse for 6 minutes: At 500-900 rpm, add rutile titanium dioxide, chemically inert coatings, and nanomaterials; at 900-1400 rpm, disperse for 25-30 minutes: quality inspection sampling inspection fineness ≤ 60 microns; at 300 At a speed of ~500 rpm, add film-forming aids, preservatives, and antifungal agents in sequence. After dispersing for 6 minutes, add -OH-containing water-based polyurethane resin, PH regulator, defoamer, and thickener. Disperse for 6 minutes: take samples for quality inspection, filter and pack after passing the test.

[0038] 2. Preparation of curing agent:

[0039] (1) When the curing agent is pure -NCO-containing polyisocyanate, take the -NCO-containing polyisocyanate and stir for 5 minutes, and pack it after passing the quality inspection...

Embodiment 1

[0044] The preparation method of the above-mentioned acid rain and anti-fouling nano water-based polyurethane exterior wall paint is:

[0045] 1. Preparation of the main paint: add 210kg of water, and put in 5kg of dispersant successively at a speed of 300-500 rpm. The thickener at the place is preferably ACRYSOLRM-8W from Rohm and Haas China; 2kg wetting agent, preferably Hyoni PE-100 from Shenzhen Haichuan Chemical Technology Co., Ltd.; 18kg propylene glycol; 2kg defoamer, preferably Blackburn Chemicals Dilpelair CF247; disperse for 6 minutes: at 500-900 rpm, put in 180kg rutile titanium dioxide, rutile titanium dioxide is preferably TRONOX CR-828; 120kg chemically inert filler, preferably 1250 mesh barium sulfate; 9kg nanomaterials , selected from nm-SiO of Jiangsu Hehai Nano Technology Co., Ltd. 2 , where nm-SiO 2 The particle size is less than or equal to 20nm; at the speed of 900-1400 rpm, disperse for 25-30 minutes: after the quality inspection sampling inspection fin...

Embodiment 2

[0050] The preparation method of the above-mentioned acid rain and anti-fouling nano water-based polyurethane exterior wall paint is:

[0051] 1. Preparation of the main paint: add 300kg of water, and at a speed of 300-500 rpm, add 13kg of GA-40 selected from Ciba Specialty Chemicals China Co., Ltd., 8kg of GA-40 selected from Clariant Chemicals (China) ) Co., Ltd. HS30000YP2, 3kg of Emulsogen LCN407 selected from Clariant Chemical (China) Co., Ltd., 25kg of propylene glycol, 3kg of Dispelair CF550 selected from Blackburn Chemical, dispersed for 6 minutes: at 500-900 rpm, Put in 150kg TRONOX CR-828, 55kg of 1250 mesh barium sulfate, 15kg of nm-SiO selected from Jiangsu Hehai Nano Technology Co., Ltd. 2 , where nm-SiO 2 The particle size is less than or equal to 20nm; at the speed of 900-1400 rpm, disperse for 25-30 minutes: after the quality inspection sampling inspection fineness ≤ 60 microns; at the speed of 300-500 rpm, put in 35kg of Be selected from TEXANOL of Eastman C...

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Abstract

The invention discloses an acid rain-resistant antifouling aqueous nanometer polyurethane exterior wall finish. The finish is obtained by mixing a primary finish, a curing agent and water according to a weight ratio of 10:1:1, wherein the primary comprises water, a dispersant, a wetting agent, a defoamer, propylene glycol, rutile titanium dioxide, a nanomaterial with the particle size of equal to or less than 20nm, a chemical inert filler, an antiseptic, a mildew inhibitor, a pH conditioning agent, a film forming assistant, an aqueous polyurethane resin containing -OH, and a thickening agent; and the curing agent comprises polyisocyanate containing -NCO, and PMA (polymethyl acrylate). The exterior wall finish of the invention has the advantages of acid rain resistance and good antifouling performance.

Description

technical field [0001] The invention relates to a water-based polyurethane exterior wall paint. Background technique [0002] The term "acid rain" was first proposed by the British chemist Smith Ding in 1872. He first proposed the term "acid rain" in his book "Air and Rain: The Beginning of Chemical Climatology". Atmospheric precipitation such as rain, freezing rain, snow, hail, and dew with a pH value between 4.3 and 5.6 is usually called acid rain. It has been confirmed that sulfur dioxide and nitrogen dioxide in the atmosphere are the main substances that form acid rain. Sulfuric acid accounts for 60%, nitric acid accounts for 32%, hydrochloric acid accounts for 6%, and the rest is carbonic acid and a small amount of organic acids. Sulfur dioxide and nitrogen dioxide in the atmosphere mainly come from the combustion of coal and oil, and they form acids dissolved in rainwater under the action of oxidants in the air. According to statistics, about 100 million tons of sul...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09D175/04C09D7/12C09D5/00C09D5/16
Inventor 李会宁陈鑫肖富平
Owner 肇庆千江高新材料科技股份公司
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