CN113527926A - Inorganic nuclear power terrace coating and preparation method thereof - Google Patents

Abstract

The invention discloses an inorganic nuclear power terrace coating and a preparation method thereof, relating to the technical field of external wall coatings, and comprising the following components in parts by weight: 23-26 parts of water; 0.3-1.0 part of water-based dispersant; 0.1-0.2 part of water-based wetting agent; 0.04-0.35 part of water-based defoaming agent; 13-16 parts of titanium dioxide; 0.1-0.5 part of carbon black; 20.5-26.5 parts of barium sulfate. The paint provided by the invention does not contain toxic and harmful components, does not cause harm and pollution to people and environment, does not generate polluted gas in the preparation process, and effectively improves the environment for preparing the paint by staff.

Description

Inorganic nuclear power terrace coating and preparation method thereof

Technical Field

The invention relates to the technical field of exterior wall coatings, in particular to an inorganic nuclear power terrace coating and a preparation method thereof.

Background

The coating is traditionally named as paint in China. The coating is a continuous film which is coated on the surface of an object to be protected or decorated and can form firm adhesion with the object to be coated, and is a viscous liquid which is prepared by taking resin, oil or emulsion as a main material, adding or not adding pigments and fillers, adding corresponding auxiliaries and using an organic solvent or water.

Disclosure of Invention

The invention mainly aims to provide an inorganic nuclear power terrace coating and a preparation method thereof, provide a low-carbon environment-friendly exterior wall coating, and further provide a pollution-free method in the coating preparation process.

The purpose of the invention can be achieved by adopting the following technical scheme:

an inorganic nuclear power terrace coating comprises the following components in parts by weight:

23-26 parts of water;

0.3-1.0 part of water-based dispersant;

0.1-0.2 part of water-based wetting agent;

0.04-0.35 part of water-based defoaming agent;

13-16 parts of titanium dioxide;

0.1-0.5 part of carbon black;

20.5-26.5 parts of barium sulfate;

1-4 parts of talcum powder;

1-4 parts of nano inorganic wear-resistant filler;

0.45-0.65 part of cellulose;

0.03-0.08 part of amine neutralizer;

25-32 parts of inorganic emulsion.

Preferably, the composition specifically comprises the following components in parts by weight:

25.88 parts of water;

0.6 part of water-based dispersant;

0.15 part of water-based wetting agent;

0.27 part of a water-based defoaming agent;

15 parts of titanium dioxide;

0.1 part of carbon black;

25.5 parts of natural barium sulfate;

2 parts of talcum powder;

2 parts of nano inorganic wear-resistant filler;

0.55 part of cellulose;

0.05 part of amine neutralizer;

30 parts of inorganic emulsion.

The preparation method of the inorganic nuclear power floor coating comprises the following steps

Step A, preparing raw materials, wherein the raw materials comprise, by weight, 23-26 parts of water, 0.3-1.0 part of a water-based dispersing agent, 0.1-0.2 part of a water-based wetting agent, 0.04-0.35 part of a water-based defoaming agent, 13-16 parts of titanium dioxide, 0.1-0.5 part of carbon black, 20.5-26.5 parts of barium sulfate, 1-4 parts of talcum powder, 1-4 parts of a nano inorganic wear-resistant filler, 0.45-0.65 part of cellulose, 0.03-0.08 part of an amine neutralizing agent and 25-32 parts of an inorganic emulsion;

step B, respectively adding the water-based dispersing agent, the water-based wetting agent and a part of the water-based defoaming agent into water, and uniformly stirring;

step C, adding titanium dioxide, carbon black, barium sulfate, talcum powder and nano inorganic wear-resistant filler into the mixture obtained in the step B respectively, and stirring uniformly;

step D, adding cellulose into the mixture obtained in the step C, and stirring;

and E, respectively adding the other part of the water-based defoaming agent, the amine neutralizer and the inorganic emulsion into the mixture obtained in the step D, and uniformly stirring to ensure that the fineness of the final stirred material is less than or equal to 50um, thereby obtaining the final product coating.

Preferably, the method comprises the following steps

Step A1, preparing raw materials, wherein the raw materials comprise, by weight, 25.88 parts of water, 0.6 part of a water-based dispersing agent, 0.15 part of a water-based wetting agent, 0.27 part of a water-based defoaming agent, 15 parts of titanium dioxide, 0.1 part of carbon black, 25.5 parts of natural barium sulfate, 2 parts of talcum powder, 2 parts of a nano inorganic wear-resistant filler, 0.55 part of cellulose, 0.05 part of an amine neutralizing agent and 30 parts of an inorganic emulsion;

step B1, respectively adding the water-based dispersing agent, the water-based wetting agent and 0.02 part of water-based defoaming agent into the water in a stirring state, and uniformly stirring;

step C1, adding titanium dioxide, carbon black, barium sulfate, talcum powder and nano inorganic wear-resistant filler into the mixture obtained in the step B1 respectively, and stirring uniformly;

step D1, adding the cellulose into the stirred material in the step C1, and stirring again until the cellulose is dissolved;

and E1, sequentially adding 0.25 part of water-based defoaming agent, amine neutralizer and inorganic emulsion into the stirrer in the step D1, and uniformly stirring until the fineness of the stirrer is less than or equal to 40um to obtain the final product coating.

Preferably, after the step E1, the stirred material obtained in the step E1 is filtered and packaged by using 100-mesh filter cloth.

The invention has the beneficial technical effects that:

the paint provided by the invention does not contain toxic and harmful components, does not cause harm and pollution to people and environment, does not generate polluted gas in the preparation process, and effectively improves the environment for preparing the paint by staff.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail with reference to the following examples, but the embodiments of the present invention are not limited thereto.

The inorganic nuclear power terrace coating provided by the embodiment comprises the following components in parts by weight:

23-26 parts of water;

0.3-1.0 part of water-based dispersant;

0.1-0.2 part of water-based wetting agent;

0.04-0.35 part of water-based defoaming agent;

13-16 parts of titanium dioxide;

0.1-0.5 part of carbon black;

20.5-26.5 parts of barium sulfate;

1-4 parts of talcum powder;

1-4 parts of nano inorganic wear-resistant filler;

0.45-0.65 part of cellulose;

0.03-0.08 part of amine neutralizer;

25-32 parts of inorganic emulsion.

In this embodiment, the composition specifically comprises the following components in parts by weight:

25.88 parts of water;

0.6 part of water-based dispersant;

0.15 part of water-based wetting agent;

0.27 part of a water-based defoaming agent;

15 parts of titanium dioxide;

0.1 part of carbon black;

25.5 parts of natural barium sulfate;

2 parts of talcum powder;

2 parts of nano inorganic wear-resistant filler;

0.55 part of cellulose;

0.05 part of amine neutralizer;

30 parts of inorganic emulsion.

The preparation method of the inorganic nuclear power floor coating comprises the following steps

Step A, preparing raw materials, wherein the raw materials comprise, by weight, 23-26 parts of water, 0.3-1.0 part of a water-based dispersing agent, 0.1-0.2 part of a water-based wetting agent, 0.04-0.35 part of a water-based defoaming agent, 13-16 parts of titanium dioxide, 0.1-0.5 part of carbon black, 20.5-26.5 parts of barium sulfate, 1-4 parts of talcum powder, 1-4 parts of a nano inorganic wear-resistant filler, 0.45-0.65 part of cellulose, 0.03-0.08 part of an amine neutralizing agent and 25-32 parts of an inorganic emulsion;

step B, respectively adding the water-based dispersing agent, the water-based wetting agent and a part of the water-based defoaming agent into water, and uniformly stirring;

step C, adding titanium dioxide, carbon black, barium sulfate, talcum powder and nano inorganic wear-resistant filler into the mixture obtained in the step B respectively, and stirring uniformly;

step D, adding cellulose into the mixture obtained in the step C, and stirring;

and E, respectively adding the other part of the water-based defoaming agent, the amine neutralizer and the inorganic emulsion into the mixture obtained in the step D, and uniformly stirring to ensure that the fineness of the final stirred material is less than or equal to 50um, thereby obtaining the final product coating.

In the present embodiment, the following steps are included

Step A1, preparing raw materials, wherein the raw materials comprise, by weight, 25.88 parts of water, 0.6 part of a water-based dispersing agent, 0.15 part of a water-based wetting agent, 0.27 part of a water-based defoaming agent, 15 parts of titanium dioxide, 0.1 part of carbon black, 25.5 parts of natural barium sulfate, 2 parts of talcum powder, 2 parts of a nano inorganic wear-resistant filler, 0.55 part of cellulose, 0.05 part of an amine neutralizing agent and 30 parts of an inorganic emulsion;

step B1, respectively adding the water-based dispersing agent, the water-based wetting agent and 0.02 part of water-based defoaming agent into the water in a stirring state, and uniformly stirring;

step C1, adding titanium dioxide, carbon black, barium sulfate, talcum powder and nano inorganic wear-resistant filler into the mixture obtained in the step B1 respectively, and stirring uniformly;

step D1, adding the cellulose into the stirred material in the step C1, and stirring again until the cellulose is dissolved;

and E1, sequentially adding 0.25 part of water-based defoaming agent, amine neutralizer and inorganic emulsion into the stirrer in the step D1, and uniformly stirring until the fineness of the stirrer is less than or equal to 40um to obtain the final product coating.

In this embodiment, after step E1, the blend obtained in step E1 is filter-packed using 100 mesh filter cloth.

In conclusion, in the embodiment, the paint provided by the embodiment does not contain toxic and harmful components, does not cause harm and pollution to people and the environment, does not generate polluted gas in the preparation process, and effectively improves the environment for preparing the paint by staff.

The above description is only for the purpose of illustrating the present invention and is not intended to limit the scope of the present invention, and any person skilled in the art can substitute or change the technical solution of the present invention and its conception within the scope of the present invention.

Claims (5)

1. The inorganic nuclear power terrace coating is characterized by comprising the following components in parts by weight:

23-26 parts of water;

0.3-1.0 part of water-based dispersant;

0.1-0.2 part of water-based wetting agent;

0.04-0.35 part of water-based defoaming agent;

13-16 parts of titanium dioxide;

0.1-0.5 part of carbon black;

20.5-26.5 parts of barium sulfate;

1-4 parts of talcum powder;

1-4 parts of nano inorganic wear-resistant filler;

0.45-0.65 part of cellulose;

0.03-0.08 part of amine neutralizer;

25-32 parts of inorganic emulsion.

2. The inorganic nuclear power terrace coating of claim 1, which is characterized by comprising the following components in parts by weight:

25.88 parts of water;

0.6 part of water-based dispersant;

0.15 part of water-based wetting agent;

0.27 part of a water-based defoaming agent;

15 parts of titanium dioxide;

0.1 part of carbon black;

25.5 parts of natural barium sulfate;

2 parts of talcum powder;

2 parts of nano inorganic wear-resistant filler;

0.55 part of cellulose;

0.05 part of amine neutralizer;

30 parts of inorganic emulsion.

3. The preparation method of the inorganic nuclear power floor coating is characterized by comprising the following steps

Step A, preparing raw materials, wherein the raw materials comprise, by weight, 23-26 parts of water, 0.3-1.0 part of a water-based dispersing agent, 0.1-0.2 part of a water-based wetting agent, 0.04-0.35 part of a water-based defoaming agent, 13-16 parts of titanium dioxide, 0.1-0.5 part of carbon black, 20.5-26.5 parts of barium sulfate, 1-4 parts of talcum powder, 1-4 parts of a nano inorganic wear-resistant filler, 0.45-0.65 part of cellulose, 0.03-0.08 part of an amine neutralizing agent and 25-32 parts of an inorganic emulsion;

step B, respectively adding the water-based dispersing agent, the water-based wetting agent and a part of the water-based defoaming agent into water, and uniformly stirring;

step C, adding titanium dioxide, carbon black, barium sulfate, talcum powder and nano inorganic wear-resistant filler into the mixture obtained in the step B respectively, and stirring uniformly;

step D, adding cellulose into the mixture obtained in the step C, and stirring;

and E, respectively adding the other part of the water-based defoaming agent, the amine neutralizer and the inorganic emulsion into the mixture obtained in the step D, and uniformly stirring to ensure that the fineness of the final stirred material is less than or equal to 50um, thereby obtaining the final product coating.

4. The preparation method of the inorganic nuclear power terrace coating, according to claim 3, is characterized by comprising the following steps

Step A1, preparing raw materials, wherein the raw materials comprise, by weight, 25.88 parts of water, 0.6 part of a water-based dispersing agent, 0.15 part of a water-based wetting agent, 0.27 part of a water-based defoaming agent, 15 parts of titanium dioxide, 0.1 part of carbon black, 25.5 parts of natural barium sulfate, 2 parts of talcum powder, 2 parts of a nano inorganic wear-resistant filler, 0.55 part of cellulose, 0.05 part of an amine neutralizing agent and 30 parts of an inorganic emulsion;

step B1, respectively adding the water-based dispersing agent, the water-based wetting agent and 0.02 part of water-based defoaming agent into the water in a stirring state, and uniformly stirring;

step C1, adding titanium dioxide, carbon black, barium sulfate, talcum powder and nano inorganic wear-resistant filler into the mixture obtained in the step B1 respectively, and stirring uniformly;

step D1, adding the cellulose into the stirred material in the step C1, and stirring again until the cellulose is dissolved;

and E1, sequentially adding 0.25 part of water-based defoaming agent, amine neutralizer and inorganic emulsion into the stirrer in the step D1, and uniformly stirring until the fineness of the stirrer is less than or equal to 40um to obtain the final product coating.

5. The preparation method of the inorganic nuclear power terrace coating, according to claim 4, is characterized in that after the step E1, the stirrer in the step E1 is filtered and packaged by using 100-mesh filter cloth.