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Preparation and construction method of inorganic wear-resistant floor coating

A wear-resistant coating and coating technology, which is applied in the preparation and construction of inorganic wear-resistant floor coatings, can solve the problems of limited space occupation, poor impact resistance, poor wear resistance, etc., to reduce the space occupied by water, Effect of reducing VOC emissions and enhancing wear resistance

Pending Publication Date: 2022-05-27
环秀(青岛)建材科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the commonly used floor coatings are mainly polyurethanes, epoxy resins and acrylic resins, all of which are organic products, and their components contain a large amount of organic volatile substances (VOC) and various harmful substances, especially when used in In underground places, the ventilation is not good, and the smell is very strong, which brings great harm to people's health.
[0003] Although the inorganic floor coatings that have appeared in recent years have improved in terms of environmental protection, they have poor wear resistance and are not waterproof, and inorganic floor paints, because the inorganic silicate material itself is relatively brittle, potassium silicate and sodium are the main materials. Inorganic floor coatings made of inorganic materials have weaknesses such as poor flexibility, easy cracks, poor water resistance, etc.
[0004] The above coatings are all thin coatings, so the impact resistance is poor, and they cannot withstand the rolling of forklifts and heavy vehicles.
It is also possible to increase the thickness and wear resistance by adding stones, but if the thickness is too large (3-5cm), it will occupy a limited space, and because there will be gaps between the stones, and form a barrier with the ground, forklifts and heavy vehicles turn or rush. Brakes can easily damage the coating due to too much torque

Method used

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  • Preparation and construction method of inorganic wear-resistant floor coating
  • Preparation and construction method of inorganic wear-resistant floor coating
  • Preparation and construction method of inorganic wear-resistant floor coating

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0073] An inorganic wear-resistant floor coating, by weight is as follows:

[0074]50 parts of iron aluminate fast setting cement; 5 parts of Portland black cement; 90 parts of washed quartz sand; 20 parts of calcium hydroxide powder; 10 parts of titanium dioxide powder; 1 part of aluminum powder; 20 parts of iron powder; dispersible latex 1 part of powder; 0.1 part of cellulose; 1 part of powdered polycarboxylate water reducing agent; 1 part of silane water repellent; 2 parts of polyvinyl alcohol powder; 1 part of polypropylene staple fiber; 8 parts of fly ash; powder silicic acid 1 part sodium; 2 parts calcium formate;

[0075] The cement quartz sand includes 20 parts of 20-40 mesh washed quartz sand, 20 parts of 40-80 mesh washed quartz sand, and 50 parts of 120-200 mesh washed quartz sand.

[0076] The preparation method of the coating plasticizer is as follows: heating 10 parts of calcium stearate with water to 60° C., adding 1 part of edible alkali, and continuing to he...

Embodiment 2

[0082] An inorganic wear-resistant floor coating, by weight is as follows:

[0083] 10 parts of iron aluminate fast setting cement; 5 parts of Portland black cement; 25 parts of washed quartz sand; 20 parts of calcium hydroxide powder; 1 part of titanium dioxide powder; 1 part of aluminum powder; 12 parts of iron powder; dispersible latex 0.1 part of powder; 0.1 part of cellulose; 0.1 part of powdered polycarboxylate water reducing agent; 0.2 part of silane water repellent; 0.1 part of polyvinyl alcohol powder; 0.1 part of polypropylene staple fiber; 2 parts of fly ash; powder silicic acid 1 part sodium;

[0084] The cement quartz sand includes 5 parts of 20-40 mesh washed quartz sand, 10 parts of 40-80 mesh washed quartz sand, and 10 parts of 120-200 mesh washed quartz sand.

[0085] The preparation method of the coating plasticizer is as follows: adding 5 parts of calcium stearate to water and heating to 60° C., adding 0.1 part of edible alkali, and continuing to heat until...

Embodiment 3

[0091] An inorganic wear-resistant floor coating, by weight is as follows:

[0092] 30 parts of iron aluminate fast setting cement; 15 parts of Portland black cement; 60 parts of washed quartz sand; 15 parts of calcium hydroxide powder; 6 parts of titanium dioxide powder; 3 parts of aluminum powder; 16 parts of iron powder; dispersible latex 0.1 part of powder; 0.1 part of cellulose; 0.1 part of powdered polycarboxylate water reducer; 0.2 part of silane water repellent; 0.1 part of polyvinyl alcohol powder; 0.1 part of polypropylene staple fiber; 5 parts of fly ash; silicic acid powder 5 parts sodium; 1 part calcium formate;

[0093] The cement quartz sand includes 20 parts of 20-40 mesh washed quartz sand, 20 parts of 40-80 mesh washed quartz sand, and 20 parts of 120-200 mesh washed quartz sand.

[0094] The preparation method of the coating plasticizer is as follows: adding 6 parts of calcium stearate to water and heating to 60° C., adding 0.1 part of edible alkali, and co...

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PUM

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Abstract

The invention relates to a preparation and construction method of an inorganic wear-resistant floor coating. The coating comprises the following components in parts by weight: 10-50 parts of aluminoferrite quick-setting cement; 5-20 parts of silicate black cement; 25-90 parts of washed quartz sand; 10 to 20 parts of calcium hydroxide powder; 1 to 10 parts of titanium dioxide powder; 1-5 parts of aluminum powder; 12 to 20 parts of iron powder micro powder; 0.1 to 1 part of dispersible latex powder; 0.1 to 1 part of cellulose; 0.1-1 part of a powdery polycarboxylate superplasticizer; 0.2 to 1 part of a silane water repellent; 0.1 to 2 parts of polyvinyl alcohol powder; 0.1-1 part of polypropylene short fiber; 2-8 parts of fly ash; 1-10 parts of powder lithium silicate; 0-2 parts of calcium formate; according to the technology, the ingredients are reasonable, the anti-cracking and anti-seepage effects are enhanced through cooperation of all the materials, and a powerful super-strength wear-resistant coating system is formed.

Description

technical field [0001] The invention belongs to the technical field of coatings, and in particular relates to a preparation and construction method of an inorganic wear-resistant floor coating. Background technique [0002] Floor coatings are used in factory workshops, underground shopping malls, underground parking lots and other places. However, the commonly used floor coatings are mainly polyurethanes, epoxy resins and acrylic resins, all of which are organic products, and their components contain a large amount of organic volatile substances (VOCs) and various harmful substances. In underground places, the ventilation is not good, and the smell is very strong, which brings great harm to people's health. [0003] Although the inorganic floor coatings that have appeared in recent years have been improved in terms of environmental protection, they have poor wear resistance and are not waterproof, and inorganic floor coatings are brittle because of the brittleness of inorga...

Claims

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Application Information

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IPC IPC(8): C04B28/26C04B14/06C04B7/32C04B22/04C04B24/42C04B24/24C04B24/08C04B41/70E04F15/12E04F21/24C09D133/00C09D7/61C04B111/20C04B111/27C04B111/60
CPCC04B28/26C04B14/06C04B7/32C04B22/04C04B24/42C04B24/24C04B24/085C04B41/70C04B41/52E04F15/12E04F21/24C09D133/00C09D7/61C04B2111/2038C04B2111/27C04B2111/60C04B2111/00362C04B2111/00508C04B2201/52C04B7/02C04B22/064C04B14/305C04B2103/0057C04B24/383C04B2103/302C04B24/2623C04B16/0633C04B18/08C04B24/04C04B41/5024C04B41/483C04B41/46C04B41/4543C04B41/5036C08K3/34Y02W30/91
Inventor 刘金德刘强
Owner 环秀(青岛)建材科技有限公司
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