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Paint with high ultraviolet and infrared ray shielding rates and preparation method thereof

A violet-infrared, coating technology, applied in the direction of polyurea/polyurethane coatings, coatings, etc., can solve the problems of high production cost, inability to meet the requirements of anti-violet-infrared, and the degree of ultraviolet reflection of coatings needs to be improved, and achieves simple production process and production. Low cost of raw materials, excellent effect of ultraviolet and infrared electromagnetic energy attenuation

Active Publication Date: 2014-07-16
JIANGSU HANCHUANG NEW MATERIAL
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The problems of the above-mentioned coatings are that the production cost is high, and the degree of ultraviolet reflection of the coating needs to be improved, which cannot meet the demand for higher anti-ultraviolet and infrared rays.

Method used

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  • Paint with high ultraviolet and infrared ray shielding rates and preparation method thereof

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] The high purple-infrared shielding rate coating of the present invention, its preparation method is as follows:

[0027] 1. Preparation of doped ferrite powder

[0028] Raw material weight percent is ZnO3%, MnO30%, TiO 2 8%, CaCO 3 0.06%, Nb 2 o 5 0.07%, SnO 2 O.05%, Co 2 o 3 0.01%, the rest is Fe 2 o 3 , the purity of each raw material is greater than 99.9%. The raw materials are mixed evenly and crushed in a sand mill, dried at a temperature of 120°C, passed through a 180-mesh sieve, and then pre-fired at a temperature of 980°C for 100 minutes. The doped ferrite obtained after calcining is ground into doped ferrite powder with a particle diameter of 500-700 microns.

[0029] 2. Preparation of blast furnace slag powder

[0030] Grinding blast furnace slag into blast furnace slag powder with a particle size of 500-700 microns.

[0031] 3. Preparation of ferrite composite powder

[0032] According to the weight ratio of doped ferrite and blast furnace slag as...

Embodiment 2

[0036] The high purple-infrared shielding rate coating of the present invention, its preparation method is as follows:

[0037] 1. Preparation of doped ferrite powder

[0038] The weight percentage of raw materials is ZnO13%, MnO40%, TiO 2 6%, CaCO 3 0.04%, Nb 2 o 5 0.03%, SnO 2 O.15%, Co 2 o 3 0.03%, the rest is Fe 2 o 3 , the purity of each raw material is greater than 99.9%. The raw materials are mixed uniformly and crushed in a sand mill, dried at a temperature of 135°C, passed through a 200-mesh sieve, and then pre-fired at a temperature of 930°C for 120 minutes. The doped ferrite obtained after calcining is ground into doped ferrite powder with a particle diameter of 500-700 microns.

[0039] 2. Preparation of blast furnace slag powder

[0040] Grinding blast furnace slag into blast furnace slag powder with a particle size of 500-700 microns.

[0041] 3. Preparation of ferrite composite powder

[0042] According to the weight ratio of doped ferrite and blast ...

Embodiment 3

[0046] The high purple-infrared shielding rate coating of the present invention, its preparation method is as follows:

[0047] 1. Preparation of doped ferrite powder

[0048] The weight percentage of raw materials is ZnO8%, MnO35%, TiO 2 7%, CaCO 3 0.05%, Nb 2 o 5 0.05%, SnO 2 O.05%, Co 2 o 3 0.02%, the rest is Fe 2 o 3 , the purity of each raw material is greater than 99.9%. The raw materials are mixed uniformly and crushed in a sand mill, dried at a temperature of 130°C, passed through a 190-mesh sieve, and then pre-fired at a temperature of 930°C for 120 minutes. The doped ferrite obtained after calcining is ground into doped ferrite powder with a particle diameter of 500-700 microns.

[0049] 2. Preparation of blast furnace slag powder

[0050] Grinding blast furnace slag into blast furnace slag powder with a particle size of 500-700 microns.

[0051] 3. Preparation of ferrite composite powder

[0052] According to the weight ratio of doped ferrite and blast f...

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Abstract

The invention discloses paint with high ultraviolet and infrared ray shielding rates and a preparation method of the paint. The paint comprises the following components by weight percent: 20-30% of alcohol, 2-3% of 2-hydroxy-4-octyloxy benzophenone, 1-3% of polyamide resin, 25-30% of ferrite composite powder, 5-8% of propylgallate and the balance of polyurethane. The paint has excellent ultraviolet and infrared electromagnetic energy attenuation effects, can be prepared without using a great deal of rare and precious elements, and adopts waste blast-furnace slag as raw material, is low in production raw material cost and simple in production process, and has very high application prospect.

Description

technical field [0001] The invention relates to the technical field of paint compositions, in particular to a paint with a high ultraviolet and infrared shielding rate and a preparation method thereof. Background technique [0002] Application No. CN01102763.0 relates to an anti-ultraviolet and infrared energy-saving coating. Nano silicon dioxide NMSiO2-X is added to the paint. It is mainly composed of pure acrylic emulsion or styrene-acrylic emulsion, film-forming agent, titanium dioxide, nanometer, dispersant, defoamer, antifungal agent, leveling agent, pigment, and water. The coating can reflect 75-80% of the Ultraviolet and infrared rays of different wavelengths can greatly reduce the damage of ultraviolet rays to materials, and have the effects of anti-aging, anti-color reduction and heat insulation, and save energy consumption. The problems of the above-mentioned coatings are that the production cost is high, and the ultraviolet reflection degree of the coating needs...

Claims

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Application Information

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IPC IPC(8): C09D175/04C09D7/12
Inventor 赵浩峰王玲张太忠王冰郑泽昌潘子云曹燕子谢艳春宋超龚国庆雷霆何晓蕾徐小雪赵佳玉柯维雄陆阳平裴李娜赵圣哲
Owner JIANGSU HANCHUANG NEW MATERIAL
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