CN105542625A - Polymer fire retardant coating for steel plate and preparation method of coating - Google Patents

Abstract

The invention discloses a polymer fire retardant coating for a steel plate and a preparation method of the coating. Added filler has good dispersity in the coating, agglomeration is not easily caused, the heat resistance and the fire resistance are high, and the coating can have a good fire protection effect on the steel plate.

Description

A kind of steel plate polymer frie retardant coating and preparation method thereof

Technical field

The present invention relates generally to fire-retardant material field, particularly relates to a kind of steel plate polymer frie retardant coating and preparation method thereof.

Background technology

Although steel do not fire, there is the characteristic of heat-resisting non-refractory, easy heat conduction, steel construction is heated and can causes the harm of following two aspects: on the one hand, because the thermal expansivity of steel is high, easily causes the distortion of structure or component to extend during high temperature, easily cause member bends when steel both sides are heated inequality; On the other hand, the mechanical property of steel, as: yielding stress, Young's modulus etc. raise with temperature and reduce gradually.When a threshold temperature is reached, steel construction will lose supporting capacity, cause the accidents such as building collapse.Point out especially, the maximum vertical penetration of current aerial ladder is only 100m, and this causes significant limitation to the fire extinguishing of fire of high-rise building and rescue work;

The quality of current steel structure fire-proof paint is uneven, and ubiquity the problems such as fire resistance is poor, expansion multiplying power is low, expanding layer structural strength is low, poor water resistance.For the above problem, and according to the practical situation of China and the market requirement, the present invention studies a kind of polymer frie retardant coating.

Summary of the invention

The object of the invention is exactly the defect in order to make up prior art, provides a kind of polymer frie retardant coating and preparation method thereof.

The present invention is achieved by the following technical solutions:

A kind of steel plate polymer frie retardant coating, it is made up of the raw material of following weight parts:

Epoxy resin E44270-300, t31 epoxy curing agent 5-8, 2, 4, 6-tri-(dimethylamino methyl) phenol 0.4-2, multi-walled carbon nano-tubes 10-14, the salpeter solution 300-400 of 27-30%, N-BUTYL ACETATE 17-20, melamine phosphate 3-4, aluminum isopropylate 4-6, polyacrylamide 0.3-0.7, sodium polyacrylate 1-2, potassium titanate crystal whisker 0.1-0.3, nano zirconium dioxide 1.3-2, kaolin 40-51, pine needle powder 0.1-0.4, zinc hydroxyl stannate 1-2, Tween-80 0.5-1, the sulphuric acid soln 6-13 of 0.5-1mol/l, sodium carbonate 6-9, barium stearate 1-2, silane coupling agent kh5600.7-1.1, graphene oxide 3-7, polyvinylpyrrolidone 6-10, nylon acid methyl esters 500-600.

A preparation method for steel plate polymer frie retardant coating, comprises the following steps:

(1) get the 70-85% of above-mentioned kaolin weight, send in the sodium hydroxide of 10-13mol/l and soak 1-2 hour, filter, wash 3-4 time, mix with barium stearate, at 400-500 DEG C, calcine 30-40 minute, cooling, wears into fine powder;

(2) joined by above-mentioned sodium polyacrylate in its weight 180-200 times deionized water, insulated and stirred 3-4 minute at 50-60 DEG C, adds the fine powder obtained in above-mentioned steps (1), magnetic agitation 1-2 minute, obtains kaolin powder dispersion liquid;

(3) joined in its weight 30-40 times deionized water by above-mentioned graphene oxide, magnetic agitation 4-7 minute, obtains graphene dispersing solution;

(4) above-mentioned multi-walled carbon nano-tubes is got, join in the salpeter solution of above-mentioned 27-30%, ultrasonic disperse 30-40 minute, ultrasonic frequency is 30-40kHz, raised temperature is 50-60 DEG C, insulated and stirred 20-24 hour, centrifugation, at being deposited in 90-100 DEG C, dry 20-25 hour, obtains purifying carbon nano-tube;

(5) above-mentioned polyvinylpyrrolidone is joined in its weight 46-50 deionized water doubly, stir, add above-mentioned purifying carbon nano-tube, ultrasonic disperse 20-30 minute, ultrasonic frequency is 30-40kHz, centrifugation, dry 30-40 hour at normal temperatures will be precipitated, obtain pre-treatment carbon nanotube;

(6) above-mentioned silane coupling agent kh560 is got, join in its weight 100-120 dehydrated alcohol doubly, stir, add Tween-80, raised temperature is 80-90 DEG C, add above-mentioned kaolin powder dispersion liquid, graphene dispersing solution, pre-treatment carbon nanotube, 600-1000 rev/min is stirred 30-40 minute, obtains modification composite solution;

(7) above-mentioned nano zirconium dioxide is joined in the sulphuric acid soln of above-mentioned 0.5-1mol/l, stir, obtain pre-mixed acid liquid;

(8) above-mentioned aluminum isopropylate is joined in its weight 80-100 deionized water doubly, stir, add polyacrylamide, zinc hydroxyl stannate, remaining kaolin, raised temperature is 40-50 DEG C, add above-mentioned pre-mixed acid liquid, insulated and stirred 20-30 minute, add above-mentioned sodium carbonate, raised temperature is 70-76 DEG C, insulated and stirred 30-40 minute, add above-mentioned modification composite solution, 300-500 rev/min is stirred 1-2 hour, filters, by precipitation washing 3-4 time, vacuum-drying 2-3 hour at 60-70 DEG C, obtains modification fire-proof packing;

(9) by above-mentioned t31 epoxy curing agent, the mixing of 2,4,6-tri-(dimethylamino methyl) phenol, stirring, is a material;

(10) join in N-BUTYL ACETATE by above-mentioned modification fire-proof packing, insulated and stirred 7-10 minute at 40-50 DEG C, is cooled to normal temperature, adds epoxy resin E44, nylon acid methyl esters, melamine phosphate, and remains each raw material, stir, and is b material;

(11), before using, a material, b material are mixed, to obtain final product.

Advantage of the present invention is:

First by kaolin alkalinisation treatment in fire retardant material of the present invention, then with barium stearate mixed calcining, improve its stability, then disperse in aqueous sodium polyacrylate, obtain kaolin powder dispersion liquid,

Then carbon nanotube is carried out modification, it can be made effectively to be distributed in frie retardant coating, play and improve coating strength and toughness, prevent high temperature from ftractureing, improve coating expand by fire after the effect such as density of charring layer, thus promote the fire resistance of finished product;

The present invention is afterwards raw material with aluminum isopropylate, and adds the less nano titanium oxide of thermal conductivity, coordinates zinc hydroxyl stannate, can play the effect of good cooperative flame retardant;

The filler that the present invention adds has good dispersiveness in coating, not easily reunites, and thermal resistance flame retardant resistance is strong, can play the effect of good flameproof protection to steel plate.

Embodiment

Embodiment 1

A kind of steel plate polymer frie retardant coating, it is made up of the raw material of following weight parts:

Epoxy resin E44300, t31 epoxy curing agent 8, 2, 4, 6-tri-(dimethylamino methyl) phenol 0.4, multi-walled carbon nano-tubes 10, the salpeter solution 400 of 30%, N-BUTYL ACETATE 20, melamine phosphate 4, aluminum isopropylate 4, polyacrylamide 0.7, sodium polyacrylate 1-2, potassium titanate crystal whisker 0.3, nano zirconium dioxide 1.3, kaolin 51, pine needle powder 0.4, zinc hydroxyl stannate 2, Tween-80 0.5, the sulphuric acid soln 13 of 0.5mol/l, sodium carbonate 9, barium stearate 1, silane coupling agent kh5600.7, graphene oxide 3, polyvinylpyrrolidone 6-10, nylon acid methyl esters 600.

A preparation method for steel plate polymer frie retardant coating, comprises the following steps:

(1) get 85% of above-mentioned kaolin weight, send in the sodium hydroxide of 13mol/l and soak 2 hours, filter, wash 3 times, mix with barium stearate, calcine 40 minutes at 400 DEG C, cooling, wears into fine powder;

(2) joined by above-mentioned sodium polyacrylate in its weight 200 times of deionized waters, insulated and stirred 4 minutes at 60 DEG C, adds the fine powder obtained in above-mentioned steps (1), and magnetic agitation 1 minute, obtains kaolin powder dispersion liquid;

(3) joined by above-mentioned graphene oxide in its weight 40 times of deionized waters, magnetic agitation 7 minutes, obtains graphene dispersing solution;

(4) get above-mentioned multi-walled carbon nano-tubes, join in the salpeter solution of above-mentioned 30%, ultrasonic disperse 40 minutes, ultrasonic frequency is 40kHz, and raised temperature is 60 DEG C, insulated and stirred 20 hours, centrifugation, at being deposited in 100 DEG C, drying 25 hours, obtains purifying carbon nano-tube;

(5) above-mentioned polyvinylpyrrolidone is joined in the deionized water of its weight 50 times, stir, add above-mentioned purifying carbon nano-tube, ultrasonic disperse 30 minutes, ultrasonic frequency is 40kHz, centrifugation, dry 40 hours at normal temperatures will be precipitated, obtain pre-treatment carbon nanotube;

(6) above-mentioned silane coupling agent kh560 is got, join in the dehydrated alcohol of its weight 120 times, stir, add Tween-80, raised temperature is 80-90 DEG C, add above-mentioned kaolin powder dispersion liquid, graphene dispersing solution, pre-treatment carbon nanotube, 1000 revs/min are stirred 30 minutes, modification composite solution;

(7) above-mentioned nano zirconium dioxide is joined in the sulphuric acid soln of above-mentioned 0.5mol/l, stir, obtain pre-mixed acid liquid;

(8) above-mentioned aluminum isopropylate is joined in the deionized water of its weight 80 times, stir, add polyacrylamide, zinc hydroxyl stannate, remaining kaolin, raised temperature is 50 DEG C, adds above-mentioned pre-mixed acid liquid, insulated and stirred 30 minutes, add above-mentioned sodium carbonate, raised temperature is 76 DEG C, insulated and stirred 30-40 minute, add above-mentioned modification composite solution, 500 revs/min are stirred 1 hour, filter, by precipitation washing 3-4 time, at 60 DEG C, vacuum-drying 2 hours, obtains modification fire-proof packing;

(9) by above-mentioned t31 epoxy curing agent, the mixing of 2,4,6-tri-(dimethylamino methyl) phenol, stirring, is a material;

(10) join in N-BUTYL ACETATE by above-mentioned modification fire-proof packing, insulated and stirred 7-10 minute at 40-50 DEG C, is cooled to normal temperature, adds epoxy resin E44, nylon acid methyl esters, melamine phosphate, and remains each raw material, stir, and is b material;

(11), before using, a material, b material are mixed, to obtain final product.

Performance test:

Resistivity against fire:

800℃：50min。

Claims (2)

1. a steel plate polymer frie retardant coating, is characterized in that, it is made up of the raw material of following weight parts:

Epoxy resin E44270-300, t31 epoxy curing agent 5-8, 2, 4, 6-tri-(dimethylamino methyl) phenol 0.4-2, multi-walled carbon nano-tubes 10-14, the salpeter solution 300-400 of 27-30%, N-BUTYL ACETATE 17-20, melamine phosphate 3-4, aluminum isopropylate 4-6, polyacrylamide 0.3-0.7, sodium polyacrylate 1-2, potassium titanate crystal whisker 0.1-0.3, nano zirconium dioxide 1.3-2, kaolin 40-51, pine needle powder 0.1-0.4, zinc hydroxyl stannate 1-2, Tween-80 0.5-1, the sulphuric acid soln 6-13 of 0.5-1mol/l, sodium carbonate 6-9, barium stearate 1-2, silane coupling agent kh5600.7-1.1, graphene oxide 3-7, polyvinylpyrrolidone 6-10, nylon acid methyl esters 500-600.

2. a preparation method for steel plate polymer frie retardant coating as claimed in claim 1, is characterized in that, comprise the following steps:

(1) get the 70-85% of above-mentioned kaolin weight, send in the sodium hydroxide of 10-13mol/l and soak 1-2 hour, filter, wash 3-4 time, mix with barium stearate, at 400-500 DEG C, calcine 30-40 minute, cooling, wears into fine powder;

(2) joined by above-mentioned sodium polyacrylate in its weight 180-200 times deionized water, insulated and stirred 3-4 minute at 50-60 DEG C, adds the fine powder obtained in above-mentioned steps (1), magnetic agitation 1-2 minute, obtains kaolin powder dispersion liquid;

(3) joined in its weight 30-40 times deionized water by above-mentioned graphene oxide, magnetic agitation 4-7 minute, obtains graphene dispersing solution;

(4) above-mentioned multi-walled carbon nano-tubes is got, join in the salpeter solution of above-mentioned 27-30%, ultrasonic disperse 30-40 minute, ultrasonic frequency is 30-40kHz, raised temperature is 50-60 DEG C, insulated and stirred 20-24 hour, centrifugation, at being deposited in 90-100 DEG C, dry 20-25 hour, obtains purifying carbon nano-tube;

(5) above-mentioned polyvinylpyrrolidone is joined in its weight 46-50 deionized water doubly, stir, add above-mentioned purifying carbon nano-tube, ultrasonic disperse 20-30 minute, ultrasonic frequency is 30-40kHz, centrifugation, dry 30-40 hour at normal temperatures will be precipitated, obtain pre-treatment carbon nanotube;

(6) above-mentioned silane coupling agent kh560 is got, join in its weight 100-120 dehydrated alcohol doubly, stir, add Tween-80, raised temperature is 80-90 DEG C, add above-mentioned kaolin powder dispersion liquid, graphene dispersing solution, pre-treatment carbon nanotube, 600-1000 rev/min is stirred 30-40 minute, obtains modification composite solution;

(7) above-mentioned nano zirconium dioxide is joined in the sulphuric acid soln of above-mentioned 0.5-1mol/l, stir, obtain pre-mixed acid liquid;

(8) above-mentioned aluminum isopropylate is joined in its weight 80-100 deionized water doubly, stir, add polyacrylamide, zinc hydroxyl stannate, remaining kaolin, raised temperature is 40-50 DEG C, add above-mentioned pre-mixed acid liquid, insulated and stirred 20-30 minute, add above-mentioned sodium carbonate, raised temperature is 70-76 DEG C, insulated and stirred 30-40 minute, add above-mentioned modification composite solution, 300-500 rev/min is stirred 1-2 hour, filters, by precipitation washing 3-4 time, vacuum-drying 2-3 hour at 60-70 DEG C, obtains modification fire-proof packing;

(9) by above-mentioned t31 epoxy curing agent, the mixing of 2,4,6-tri-(dimethylamino methyl) phenol, stirring, is a material;

(10) join in N-BUTYL ACETATE by above-mentioned modification fire-proof packing, insulated and stirred 7-10 minute at 40-50 DEG C, is cooled to normal temperature, adds epoxy resin E44, nylon acid methyl esters, melamine phosphate, and remains each raw material, stir, and is b material;

(11), before using, a material, b material are mixed, to obtain final product.