Graphene modified fire-proof paint and preparation method thereof
A graphene-modified, fire-resistant coating technology, applied in the direction of fire-resistant coatings, anti-corrosion coatings, anti-fouling/underwater coatings, etc., can solve the problems of stable dispersion of graphene, limited application range, and formulation restrictions, etc. Frost resistance and chemical corrosion resistance, mechanical performance and tribological performance improvement, high temperature cracking prevention effect
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preparation example Construction
[0029] A preparation method of graphene modified silica powder, comprising the following steps:
[0030] 1) After mixing the graphene oxide aqueous solution and silicon dioxide powder, they are put into a mixer and stirred to obtain a mixed slurry;
[0031] 2) Put the mixed slurry into a microwave reactor and irradiate with microwaves to obtain graphene-modified silica powder.
[0032] Preferably, in step 1) of the preparation method of graphene-modified silica powder, the mass ratio of graphene oxide and silica powder is (1-1.5): 1; further preferably, graphene-modified silica powder In step 1) of the powder preparation method, the mass ratio of graphene oxide and silicon dioxide powder is 1:1.
[0033] Preferably, in step 1) of the preparation method of graphene-modified silica powder, the particle size of the silica powder is 800 mesh to 2500 mesh; more preferably, step 1 of the preparation method of graphene-modified silica powder ), the particle size of the silica powde...
preparation Embodiment 1
[0056] 220g vinyl acetate-ethylene copolymer emulsion, 220g ammonium polyphosphate, 70g pentaerythritol, 60g melamine, 160g graphene modified silica powder, 10g titanium dioxide, 10g zinc borate, 10g zinc oxide, 4g dispersant, 2g defoaming agent Add bactericide, 2g bactericide, 2g thickener, 20g film-forming aid and 210g deionized water into the mixer, control the speed at 200rpm, and stir for 20min. After the stirring is completed, the mixed slurry is transferred to a ball milling tank, and ball milling is carried out with zirconia beads as the ball milling medium, and the ball milling time is 150 minutes. The slurry obtained after ball milling was dispersed with a high-speed shear emulsifier, the rotating speed was 2200 rpm, the stirring time was 40 min, and the graphene-modified fireproof coating of Example 1 was obtained by filtering.
preparation Embodiment 2
[0058] 220g vinyl acetate-ethylene copolymer emulsion, 220g ammonium polyphosphate, 70g pentaerythritol, 60g melamine, 100g graphene modified silica powder, 70g titanium dioxide, 10g zinc borate, 10g zinc oxide, 4g dispersant, 2g defoaming agent Add bactericide, 2g bactericide, 2g thickener, 20g film-forming aid and 210g deionized water into the mixer, control the speed at 200rpm, and stir for 20min. After the stirring is completed, the mixed slurry is transferred to a ball milling tank, and ball milling is carried out with zirconia beads as the ball milling medium, and the ball milling time is 150 minutes. The slurry obtained after ball milling was dispersed with a high-speed shear emulsifier, the rotating speed was 2200 rpm, the stirring time was 40 min, and the graphene-modified fireproof coating of Example 2 was obtained by filtration.
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