CN109251651A

CN109251651A - A kind of corrosion-resistant fireproof coating

Info

Publication number: CN109251651A
Application number: CN201811052611.5A
Authority: CN
Inventors: 李培成; 刘永欣
Original assignee: Jiangsu Run Mdt Infotech Ltd
Current assignee: Jiangsu Run Mdt Infotech Ltd
Priority date: 2018-09-10
Filing date: 2018-09-10
Publication date: 2019-01-22

Abstract

The invention discloses a kind of corrosion-proof fire-resistant coating, it according to the mass fraction include following components: waterborne polyurethane resin: 50-60 parts, acetone: 3-5 parts, maleic acid resin: 15-20 parts, nanometer zinc phosphate: 2-3 parts, polyether polyols: 5-13 parts, cellulose acetate: 11-13 parts, dodecyl benzene sulfonic acid ammonium: 1-3 parts, p methoxy phenol: 1-2 parts, polyvinyl alcohol: 6-10 parts, azobis-dimethylvaleronitrile: 1-2 parts, organobentonite: 10-15 parts, triethanolamine: 3-6 parts, microgel: 2-7 parts, aluminium dihydrogen phosphate: 2-4 parts, dimethyl silicone polymer: 1-3 parts, nano dye: 4-7 parts, dipentaerythritol: 2-3 parts, filler: 10-13 parts, advection agent: 2-4 parts, sealer: 2-3 parts , dispersing agent: 5-7 parts, wetting agent: 2-4 parts, stabilizer: 1-3 parts, defoaming agent: 3-5 parts, solvent: 2-4 parts.

Description

A kind of corrosion-resistant fireproof coating

Technical field

The present invention relates to technical field of coatings, are specifically a kind of corrosion-resistant fireproof coatings.

Background technique

Building coating is the indispensable decoration of building trade and protectiveness material, and for being coated on building, decoration is built Build object or protection building, by being classified using position for building, can be divided into interior wall coating, exterior coating, floor coating and Roof paint, but the generally existing following problems of outer wall building coating in the prior art, poor (2) high temperature resistant of (1) fire protecting performance, Poor corrosion resistance, after prolonged use, exterior coating is gradually corroded, the beauty of the exterior wall seriously affected and outer The quality of wall, therefore, it is necessary to a kind of new coating to solve above-mentioned technical problem.

Summary of the invention

The technical problem to be solved by the present invention is to provide a kind of corrosion-resistant for the above disadvantage of the existing technology Fireproof coating.

The technical solution that the present invention solves the above technical problem is: a kind of corrosion-resistant fireproof coating, by component A and B component The proportion of 2-3:1 in mass ratio is mixed, and wherein component A includes following components according to the mass fraction: waterborne polyurethane resin: 60-70 parts, high chlorinated polyethylene resin: 40-60 parts, urethane acrylate: 30-40 parts, polymer modification graphene oxide: 6-15 parts, calcined kaolin: 15-20 parts, empty glass microballoon: 20-25 parts, expanded perlite: 11-13 parts, hydroxymethyl cellulose: 11-13 parts, aluminium dihydrogen phosphate: 2-4 parts, dispersing agent: 2-6 parts, stabilizer: 0.5-1 parts；

B component includes following components according to the mass fraction: compound resin: 80-100 parts, pentaerythrite: 3-6 parts, organic swelling Soil: 20-30 parts, titanium dioxide: 10-13 parts, nanometer zinc phosphate: 2-3 parts, silicon nitride: 5-13 parts, modified magnesium hydroxide: 16-20 Part, polyvinyl alcohol: 8-11 parts, filler: 15-18 parts, borax: 13-16 parts, curing agent: 4-7 parts, coupling agent: 2-4, wetting agent: 3-6 parts.

The technical solution that the present invention further limits is:

Component A above-mentioned includes following components according to the mass fraction: waterborne polyurethane resin: 60 parts, high chlorinated polyethylene resin: 40 parts, urethane acrylate: 30 parts, polymer modification graphene oxide: 8 parts, calcined kaolin: 15 parts, empty glass microballoon: 20 parts, expanded perlite: 11 parts, hydroxymethyl cellulose: 11 parts, aluminium dihydrogen phosphate: 2 parts, dispersing agent: 3 parts, stabilizer: 0.5 Part；

B component includes following components according to the mass fraction: compound resin: 80 parts, pentaerythrite: 3 parts, organobentonite: 20 parts, Titanium dioxide: 10 parts, nanometer zinc phosphate: 2 parts, silicon nitride: 5 parts, modified magnesium hydroxide: 16 parts, polyvinyl alcohol: 8 parts, filler: 15 Part, borax: 13 parts, curing agent: 4 parts, coupling agent: 2, wetting agent: 3 parts.

Component A above-mentioned includes following components according to the mass fraction: waterborne polyurethane resin: 65 parts, highly-chlorinated polyethylene Resin: 50 parts, urethane acrylate: 35 parts, polymer modification graphene oxide: 12 parts, calcined kaolin: 20 parts, empty glass Glass microballon: 23 parts, expanded perlite: 13 parts, hydroxymethyl cellulose: 12 parts, aluminium dihydrogen phosphate: 3 parts, dispersing agent: 4 parts, stabilization Agent: 1 part；

B component includes following components according to the mass fraction: compound resin: 90 parts, pentaerythrite: 5 parts, organobentonite: 25 parts, Titanium dioxide: 12 parts, nanometer zinc phosphate: 3 parts, silicon nitride: 11 parts, modified magnesium hydroxide: 18 parts, polyvinyl alcohol: 10 parts, filler: 17 parts, borax: 15 parts, curing agent: 6 parts, coupling agent: 4, wetting agent: 5 parts.

Dispersing agent above-mentioned is calgon or sodium tripolyphosphate.

Stabilizer above-mentioned is compound rare-earth stabilizer, by mass percentage includes cerium: 10-20%, praseodymium: 5-13%, neodymium: 4- 10%, promethium: 6-9%, samarium: 3-5%, europium: 2-4%, dysprosium: 4-7%, surplus are lanthanum.

Filler above-mentioned is that graphite powder, glass flake, glass fibre and nano-titanium dioxide are mixed according to 5:7:4:2-4 ratio Conjunction is made.

Curing agent above-mentioned is that aliphatic polyamine curing agent and amide groups amine are mixed according to 3:1-2 proportion.

Coupling agent above-mentioned is silane coupling agent, which is KH550, KH560, KH570, KH792, DL602 With it is one or more in DL171.

Wetting agent above-mentioned is nonionic surfactant, is neopelex.

Compound resin above-mentioned is that epoxy resin, phenolic resin and organic silicon resin are made by 3:4-6:2 proportion.

The beneficial effects of the present invention are: the compound resin of the present invention is that epoxy resin, phenolic resin and organic silicon resin press 3: 4-6:2 proportion is made, and the effective corrosion-resistant and heat-resisting quantity for improving coating is had excellent using waterborne polyurethane resin Adhesive force, hardness is high, wearability is good and good environmental protection；Hollow glass micro mist, calcined kaolin and expansion is added in the present invention Perlite mixes under certain proportion, can hinder the propagation of the light wave and Thermal Infra-Red of different wave length, plays well Heat-insulated, insulation effect can improve the appearance of film, and hollow glass micro mist with the optical property of adjusting coating, high meeting Hollow glass micro mist melting, forms carbonaceous nature of glass mix-froth thermal insulation layer, the thermal insulation layer class sponge structure, in foamed when warm Protected object is closed under the action of matter, sealing effect is splendid, postpones the transmitting of heat and substrate, prevents object ignition Or because temperature increase due to caused by intensity decline；

Compound rare-earth stabilizer is added in the present invention, can be improved the crosslinking degree and density of material, greatly improved of the invention Acid-alkali-corrosive-resisting performance；The present invention adds modified magnesium hydroxide, has preferably dispersibility and compatibility, can greatly improve The flame retardant effect of coating；

Filler of the present invention is that graphite powder, glass flake, glass fibre and nano-titanium dioxide are made according to the mixing of 5:7:4:2-4 ratio At, can effectively improve the intensity and corrosion resistance of its coating, wherein glass flake have it is anti-corrosion, permeability resistance is good, film Shrinking percentage is low, and thermal expansion coefficient is small, and Googol motion controller is few, wear-resistant, and coating is enabled to form fine and close impervious barrier Structure, so that the infiltration in the resin of corrosive medium after hardening has to pass through without several tortuous approach, therefore certain thick In the anti-corrosion layer of degree, the distance of corrosion penetration is greatly prolonged, and the filling of filler can increase its adhesive ability, improves coating Mechanical strength.

Specific embodiment

Embodiment 1

The present embodiment provides a kind of corrosion-resistant fireproof coatings, are mixed by component A and B component 2:1 in mass ratio proportion, wherein Component A includes following components according to the mass fraction: component A includes following components according to the mass fraction: waterborne polyurethane resin: 60 Part, high chlorinated polyethylene resin: 40 parts, urethane acrylate: 30 parts, polymer modification graphene oxide: 8 parts, calcining height Ridge soil: 15 parts, empty glass microballoon: 20 parts, expanded perlite: 11 parts, hydroxymethyl cellulose: 11 parts, aluminium dihydrogen phosphate: 2 parts, six Sodium metaphosphate: 3 parts, stabilizer: 0.5 part, it includes cerium: 15%, that wherein stabilizer is compound rare-earth stabilizer by mass percentage Praseodymium: 8%, neodymium: 6%, promethium: 7.5%, samarium: 4%, europium: 2%, dysprosium: 5%, surplus is lanthanum；

B component includes following components according to the mass fraction: compound resin: 80 parts, pentaerythrite: 3 parts, organobentonite: 20 parts, Titanium dioxide: 10 parts, nanometer zinc phosphate: 2 parts, silicon nitride: 5 parts, modified magnesium hydroxide: 16 parts, polyvinyl alcohol: 8 parts, filler: 15 Part, borax: 13 parts, curing agent: 4 parts, coupling agent: 2, neopelex: 3 parts, wherein compound resin be epoxy resin, Phenolic resin and organic silicon resin are made by 3:5:2 proportion, and filler is graphite powder, glass flake, glass fibre and nano-silica Change titanium to be mixed according to 5:7:4:2 ratio, curing agent is that aliphatic polyamine curing agent and amide groups amine are mixed according to 3:1 proportion Conjunction is made, and coupling agent is silane coupling agent, which is tri- kinds of mixtures of KH550, KH560 and KH570.

Embodiment 2

The present embodiment provides a kind of corrosion-resistant fireproof coatings, are mixed by component A and B component 3:1 in mass ratio proportion, wherein Component A includes following components according to the mass fraction: component A includes following components according to the mass fraction: waterborne polyurethane resin: 65 Part, high chlorinated polyethylene resin: 50 parts, urethane acrylate: 35 parts, polymer modification graphene oxide: 12 parts, calcining height Ridge soil: 20 parts, empty glass microballoon: 23 parts, expanded perlite: 13 parts, hydroxymethyl cellulose: 12 parts, aluminium dihydrogen phosphate: 3 parts, three Polyphosphate sodium: 4 parts, stabilizer: 1 part, it includes cerium: 18%, praseodymium that wherein stabilizer is compound rare-earth stabilizer by mass percentage: 10%, neodymium: 8%, promethium: 9%, samarium: 5%, europium: 4%, dysprosium: 6%, surplus is lanthanum；

B component includes following components according to the mass fraction: compound resin: 90 parts, pentaerythrite: 5 parts, organobentonite: 25 parts, Titanium dioxide: 12 parts, nanometer zinc phosphate: 3 parts, silicon nitride: 11 parts, modified magnesium hydroxide: 18 parts, polyvinyl alcohol: 10 parts, filler: 17 parts, borax: 15 parts, curing agent: 6 parts, coupling agent: 4, neopelex: 5 parts, wherein compound resin is asphalt mixtures modified by epoxy resin Rouge, phenolic resin and organic silicon resin are made by 3:6:2 proportion, and filler is graphite powder, glass flake, glass fibre and nanometer two Titanium oxide is mixed according to 5:7:4:3 ratio, and curing agent is that aliphatic polyamine curing agent and amide groups amine are matched according to 3:2 It is mixed, coupling agent is silane coupling agent, which is tetra- kinds of mixtures of KH570, KH792, DL602 and DL171.

In addition to the implementation, the present invention can also have other embodiments.It is all to use equivalent substitution or equivalent transformation shape At technical solution, fall within the scope of protection required by the present invention.

Claims

1. a kind of corrosion-resistant fireproof coating, which is characterized in that it is mixed by component A and B component 2-3:1 in mass ratio proportion, Wherein component A includes following components according to the mass fraction: waterborne polyurethane resin: 60-70 parts, high chlorinated polyethylene resin: 40- 60 parts, urethane acrylate: 30-40 parts, polymer modification graphene oxide: 6-15 parts, calcined kaolin: 15-20 parts, sky Glass microballoon: 20-25 parts, expanded perlite: 11-13 parts, hydroxymethyl cellulose: 11-13 parts, aluminium dihydrogen phosphate: 2-4 parts, point Powder: 2-6 parts, stabilizer: 0.5-1 parts；

2. corrosion-resistant fireproof coating according to claim 1, which is characterized in that component A includes following according to the mass fraction Component: waterborne polyurethane resin: 60 parts, high chlorinated polyethylene resin: 40 parts, urethane acrylate: 30 parts, polymer modification Graphene oxide: 8 parts, calcined kaolin: 15 parts, empty glass microballoon: 20 parts, expanded perlite: 11 parts, hydroxymethyl cellulose: 11 parts, aluminium dihydrogen phosphate: 2 parts, dispersing agent: 3 parts, stabilizer: 0.5 part；

3. corrosion-resistant fireproof coating according to claim 1, which is characterized in that component A includes following according to the mass fraction Component: waterborne polyurethane resin: 65 parts, high chlorinated polyethylene resin: 50 parts, urethane acrylate: 35 parts, polymer modification Graphene oxide: 12 parts, calcined kaolin: 20 parts, empty glass microballoon: 23 parts, expanded perlite: 13 parts, hydroxymethyl cellulose: 12 parts, aluminium dihydrogen phosphate: 3 parts, dispersing agent: 4 parts, stabilizer: 1 part；

4. corrosion-resistant fireproof coating according to claim 1, which is characterized in that the dispersing agent is calgon or three Polyphosphate sodium.

5. corrosion-resistant fireproof coating according to claim 1, which is characterized in that the stabilizer is stablized for compound rare-earth Agent includes cerium: 10-20%, praseodymium: 5-13%, neodymium: 4-10%, promethium: 6-9%, samarium: 3-5%, europium: 2-4%, dysprosium: 4- by mass percentage 7%, surplus is lanthanum.

6. corrosion-resistant fireproof coating according to claim 1, which is characterized in that the filler be graphite powder, glass flake, Glass fibre and nano-titanium dioxide are mixed according to 5:7:4:2-4 ratio.

7. corrosion-resistant fireproof coating according to claim 1, which is characterized in that the curing agent is aliphatic polyamine solidification Agent and amide groups amine are mixed according to 3:1-2 proportion.

8. corrosion-resistant fireproof coating according to claim 1, which is characterized in that the coupling agent is silane coupling agent, should Silane coupling agent is one or more in KH550, KH560, KH570, KH792, DL602 and DL171.

9. corrosion-resistant fireproof coating according to claim 1, which is characterized in that the wetting agent is that non-ionic surface is living Property agent, be neopelex.

10. corrosion-resistant fireproof coating according to claim 1, which is characterized in that the compound resin is epoxy resin, phenol Urea formaldehyde and organic silicon resin are made by 3:4-6:2 proportion.