CN100487070C - Solvent-free expansion type fire-proof epoxy coating and its preparation method - Google Patents

Abstract

The invention discloses the inflatable fire-resisting paint, comprising A and B. The A comprises epoxide resin, modified resin, catalyst, foamable agent, fire retarding agent, fluxing agent, color filler and smog inhibiting agent, and the B comprises color filler, curing agent and auxiliary agent. The fire-resisting paint has the advantages of good heat-insulating property, adhesion force and intensity. The coating has good water resistance, acid- alkali resistance, corrosion resistance and tenacity, and is not easy to drop. The paint can be used in rolled steel and aluminum products, especially the fireproof situation of oil factories.

Description

Solvent-free expansion type fire-proof epoxy coating and preparation method thereof

Technical field

The present invention relates to expanding fire-proof paint, be suitable for indoor, outdoor steel, aluminium and other materials and avoid Mierocrystalline cellulose and hydrocarbon polymer flame and flame, blast, the effect of maintenance materials within a certain period of time.Than conventional expanded type frie retardant coating, the present invention more is applicable to offshore oil platform, oil field, refinery and petrochemical plant etc.

Background technology

Frie retardant coating generally is divided into expanded polystyrene veneer and non-expansion type two classes from fire prevention mechanism.Volume change did not take place in coating basically when the non-expansion type frie retardant coating was subjected to fire, and the coating thermal conductivity is low, retardation heat pass speed to protected base material.Frie retardant coating itself is non-combustible, and base material is played barrier and prevents the thermal radiation effect, has avoided the direct attack base material of flame and high temperature.Some component chance fire in the coating reacts to each other and generates non-flammable gases is thermo-negative reaction, has also consumed a large amount of heat.But the flameproof effect that this class coating wants to reach good must be coated with very thickly, and needs fire retardants such as interpolation is halogen-containing in a large number, nitrogen, phosphorus, produces a large amount of toxic gases.The non-expansion type fireproof paint coating is thicker, and affected by environment bigger, water tolerance is relatively poor, and poor adhesive force is easily peeled off from base material.

The expanding fire-proof paint expanded by heating of filming exactly forms cellular charring layer, flame heat regulating is isolated and reduces or slows down transmission to ground, and coating decomposites non-flammable gas when high temperature simultaneously, and is isolated and diluted air; The a series of physics and the chemical reaction of coating generation when meeting fire have absorbed a large amount of heats in addition, thereby play effect fire-retardant and that delay the flame expansion, spread, for people provide more attack time.

Behind the conventional expanded type frie retardant coating expanded by heating, the porous foam defence layer that produces, than former thick coating tens even hundred times, and the thermal conductivity ratio of the back foam layer that expands low at least order of magnitude of coating before not expanding, be coated with to such an extent that very thinly just can reach good flameproof effect.Its shortcoming is that most of expanding fire-proof paints are film forming matter with the acrylic resin, chemical resistance, water tolerance, poor solvent resistance, and fire retardant easily moves from coating, makes coating lose original fire-proof function.Therefore, this expansion type frie retardant coating is unsuitable for being applied in the open air.

Fire generally is divided into Mierocrystalline cellulose fire and hydro carbons fire.Be rich in fire that the fuel (as oils, chemical) of hydrogen and carbon produces hydrocarbon fire.The hydro carbons fire generally heats up faster than the Mierocrystalline cellulose fire, flame is more fierce.This point (see figure 1) as can be seen from the curve of BS476 standard the 20th part.

In hydro carbons fire experiment, the validity that is designed for the conventional frie retardant coating of Mierocrystalline cellulose fire only reach in the hydro carbons fire about 60%.It should be noted that when hydrocarbon fire takes place, usually be attended by blast and take place.Expanding fire-proof paint must can both remain intact and stick on the base material in blast process and after the blast generation.The expanding fire-proof paint that the present invention relates to can not only provide protection at the plain fire of violent natural fiber, particularly has excellent protection function at blast and hydro carbons fire.

Summary of the invention

Expanding fire-proof paint of the present invention is made up of A component and B component, and the prescription of A, B component is as follows:

The component parts by weight

The A component

Resins, epoxy 10-30

Modified resin 5-20

Catalyzer 5-20

Char-forming agent 10-35

Whipping agent 5-20

Fire retardant 15-40

Fusing assistant 5-15

Color stuffing 10-25

Smog inhibitor 2-15

The B component

Color stuffing 10-25

Solidifying agent 10-50

Auxiliary agent 2-15

In the above-mentioned prescription, resin has great effect to the performance of expanding fire-proof paint, and it and other component compatibility had both guaranteed that coating had various use propertieies under normal operation, can have excellent expanded foamed effect again under flame calcination or high temperature action.The present invention considers requirements such as resin should satisfy low viscosity, high crosslink density, bonding force is strong, erosion resistance is strong, water resisting property is strong, good weatherability when being chosen to film.

The good fluidity of Resins, epoxy has bonding force strong, the characteristic that pliability and toughness are excellent, physical strength is high.In epoxy resin structural, contain aliphatic hydroxyl, ether and as lively as a cricket epoxy group(ing).The polarity of hydroxyl and ether height makes the Resins, epoxy molecular energy produce electromagnetic attraction at critical surface, and the formation chemical bond and epoxide group can react with the radical of dielectric surface is so the bonding force of Resins, epoxy is strong especially.It all has good cementability to most of material such as timber, metal, glass, plastics, rubber, leather, pottery, fiber etc.Resins, epoxy after the curing has good chemical resistance, thermotolerance, acid and alkali-resistance and excellent electric insulating, thereby has good sticking power, non-corrosibility and physical strength with the frie retardant coating that it is prepared.Because the Resins, epoxy frie retardant coating has splendid closure, so its fire resistance is subjected to the influence of time and environment less.Particularly the Resins, epoxy frie retardant coating can both remain intact and stick on the base material in blast process and after the blast generation, more is applicable to offshore oil platform, oil field, refinery and petrochemical plant etc. than conventional expanded type frie retardant coating.

The present invention is main membrane-forming agent with Resins, epoxy, mainly consider resin viscosity, neat coal amout, have or not ignition-proof element, package stability etc.The Resins, epoxy that preferred viscosities of the present invention is little, the amount of being fuming is few, neat coal amout is big, contain ignition-proof element is made base-material.

Resins, epoxy of the present invention, be selected from following one or more: bisphenol A type epoxy resin, bisphenol f type epoxy resin, TDE-85 Resins, epoxy, glycolylurea epoxide resin, glycidyl amine type epoxy resin, polybutadiene epoxy resin, hydrogenated bisphenol A epoxy resin.

The present invention to the selection of modified resin based on following consideration: an important requirement of expanding fire-proof paint is that coating has good snappiness and sticking power.For this reason, modified resin should satisfy:

A. not during presence of fire coating can protect base material to avoid the direct impact of external object, and coating self can not separated with base material;

B. the rapid variation of the variation of weather, especially envrionment temperature can not cause coating cracking or break away from base material;

C. good snappiness and sticking power still can be combined closely coating with base material under the effect of explosion wave;

D. after coating was met the fire expansion, expanding layer can not break away from from base material yet.

Though Resins, epoxy has the advantages that bonding force is strong, hardness is big, but it is very big to solidify back paint film fragility, so add following one or more modified resin in the prescription above-mentioned Resins, epoxy is carried out modification: urethane, furane resin, aminoresin, Bisphenol F type resin, vinyl ester resins, acrylic resin, resol, Synolac, HCPE, chlorinated polyether resin, epoxy soybean oil, hydrogenated castor oil, polyvinyl butyral, chlorinated rubber, carboxybutyl rubber, coal tar wet goods.

The adding of modified resin, not only the snappiness that improves paint film is had very great help, and in these resins resinamines and chlorine-containing resins particularly highly-chlorinated polyethylene, chlorinated rubber, chlorinated polyether resin the over-all properties of coating is greatly improved, resol is then significantly helpful to the ultimate production of the compactness of charring layer and carbide.

The present invention selects for use mainly based on following consideration solidifying agent:

A. solidifying agent viscosity is low, curing speed fast, the coating usage period is long;

Effective cross-linking density height, chemical proofing and the physical and mechanical property of filming after b. solidifying are good;

C. the good weatherability of solidifying agent;

D. the curing system of solidifying agent and curing catalyst formation is nontoxic, does not produce low molecular contaminants during curing.

Described solidifying agent comprises: your ketone diamines of polyamide-based, liquid anhydrides, ketimine compound, diaminodiphenyl-methane, m-xylene diamine, the different fluorine of modification, aliphatic polyamine, diketone acrylamide affixture, thio-alcohol.

Also can add following flexible thing in the curing agent component and improve its performance: epoxy soybean oil, hydrogenated castor oil, urethanum-acrylate copolymer etc.

Catalyzer is one of crucial composition of expanding fire-proof paint, it promotes and improves the thermal decomposition process of coating, the amount of the flammable tar that produces when minimizing or the thermolysis of prevention organism, aldehyde, ketone etc. promotes the generation of non-flammable gases to reach the formation of at high temperature stable three-dimensional structure charring layer.As long as can be under proper temperature (it is generally acknowledged 150-250 ℃), the material that the composition that decomposites can dewater to the material of hydroxyl all can be as catalyzer.Optionally material has: primary ammonium phosphate, urea phosphate, ammonium polyphosphate, polyphosphoric acid amine potassium, Potassium tripolyphosphate, melamine phosphate, the two trimeric cyanamides of phosphoric acid, melamine pyrophosphate, organophosphate, borate (ester) and derivative, sulphonate and derivative etc.

The preferred ammonium polyphosphate of the present invention, melamine phosphate or its mixture as catalyst.

General commercially available ammonium polyphosphate (polymerization degree is many 20-30), its solubleness was 62% when its solubleness was 8.2%, 60 ℃ in the time of 25 ℃.To contain the weather resistance of ammonium polyphosphate frie retardant coating under wet, thermal environment in order improving, must to reduce the water-soluble of ammonium polyphosphate.

The present invention preferably carries out surface treatment to ammonium polyphosphate, with exotic materials to polyphosphoric acid by the surface wrap up, the available material has: silane coupling agent, titanate coupling agent, methyl-silicone oil, dimethyl silicone oil, containing hydrogen silicone oil, Zinic stearas, aminoresin, Resins, epoxy, resol etc.

Surface treated ammonium polyphosphate is compared with the ammonium polyphosphate of not handling: water-soluble obvious reduction, obviously improve with the consistency of resin, dispersiveness obviously improves.

The present invention most preferably adopts silicone oil series that ammonium polyphosphate is carried out making catalyzer after the surface treatment.

Char-forming agent is the basic substance that coating at high temperature forms the foam carburization zone of nonflammable three-D space structure, and the foam charring layer is played skeleton function.Char-forming agent will be complementary with catalyzer on decomposition temperature.The validity of char-forming agent depends on the content of hydroxyl and carbon atom in the molecule, and the quantity of hydroxyl is big, and the dehydrated speed of char-forming agent is very fast relatively.But the wetting ability height of char-forming agent itself, so also the quantity of non-hydroxyl is high more good more.Carbon content height, molecule are big, and be favourable to the intensity and the compactness of the charring layer of final formation.The kind of char-forming agent has a lot, as starch, Mierocrystalline cellulose and derivative, sucrose, sorbyl alcohol, tetramethylolmethane and derivative, Resins, epoxy, resol etc.

It is main char-forming agent that the present invention adopts tetramethylolmethane and the derivative that wetting ability is low, thermostability is high.As tetramethylolmethane, Dipentaerythritol, tripentaerythritol etc.

Whipping agent discharges non-flammable gases in certain temperature---hydrogen halide, ammonia, nitrogen and compound thereof, water vapor.Whipping agent commonly used has: the phosphoric acid salt of Dyhard RU 100, trimeric cyanamide, clorafin, urea, trimeric cyanamide and borate etc.The phosphoric acid salt of described trimeric cyanamide comprises melamine phosphate, melamine pyrophosphate.

In order to prolong foamed time, make the height of charring layer better, it is whipping agent that system of the present invention adopts trimeric cyanamide and clorafin, also can adopt melamine salt/ester (as melamine phosphate) and clorafin is whipping agent.

Fire retardant is the key component of frie retardant coating, and the fire resistance of frie retardant coating is had great influence.Selected fire retardant must cooperatively interact with base-material and other composition of fireproof system, makes even, the fine and close thermofin of the expanded foamed formation of coating when being subjected to fire.

Described fire retardant comprises organic fire-retardant and inorganic combustion inhibitor.

Described organic fire-retardant comprises: 1, and two (the dibromo norcamphyl two carbimides) ethane of 2-, the tetrabromophthalate dimethyl ester, two (2, the 3-dibromopropyl) ethers of tetrabromo-bisphenol, decabromodiphynly oxide, decabromodiphenyl, Dowspray 9, clorafin, DCRP (1,2,3,4,7,8,9,10,13,13,14,14-12 chloro-1,4,4a, 5,6,6a, 7,10,10a, 11,12,12a-ten dihydros-1,4,7,10-dimethano-hexichol cyclooctane), Hai Te (HET) acid and acid anhydrides thereof, hexachlorocyclopentadiene, tetrachlorophthalic tetrachlorophthalic anhydrid, phosphoric acid ester and Halogen derivative thereof, phosphonic acid ester, phosphorous acid ester, phosphorus oxide, phosphorus-containing polyol and phosphorous-nitrogen compounds, trimeric cyanamide and salt thereof, chlorine-containing flame retardant.

Chlorine-containing flame retardant comprises: sovprene, chlorinated polyvinyl chloride, chlorosulfonated polyethylene, tricresyl phosphate (chloroethene) ester, tricresyl phosphate (dichloro third) ester, tricresyl phosphate (chlorine third) ester, pentachloro-hard acid methyl esters, cyclic aliphatic hydrocarbon chlorine-containing flame retardant and anhydride acid chloride.

Described phosphate flame retardant comprises: Tritolyl Phosphate, triphenylphosphate, tricresyl phosphate isopropyl benzene ester, tributyl phosphate, trioctyl phosphate, tolyl diphenyl phosphoester, three (1-oxo-1-phospha-2,6,7-trioxa-l-phosphabicyclo [2,2,2] octane-4-methylene radical) phosphoric acid ester (Trimer) and 1-oxygen-4-methylol-2,6,7-trioxa-1-phospha dicyclo [2,2,2] octane (PEPA);

Described inorganic combustion inhibitor comprises: micro encapsulation red phosphorus and master batch thereof, aluminium hydroxide, magnesium hydroxide, aluminum oxide, polyphosphoric acid amine (APP), antimonous oxide, colloidal antimony pentoxide, zinc borate, zinc oxide.

The fire retardant that the present invention uses always comprises: two (2, the 3-dibromopropyl) ethers of tetrabromo-bisphenol, decabromodiphynly oxide, clorafin (42,50,60,70), phosphoric acid ester and Halogen derivative thereof, phosphonic acid ester, phosphorous acid ester, aluminium hydroxide, magnesium hydroxide, aluminum oxide, antimonous oxide, colloidal antimony pentoxide, zinc borate, zinc oxide etc.

The present invention adopts the composite method of multiple fire retardant, with performance cooperative flame retardant effect.Preferably phosphoric acid ester and Halogen derivative thereof, clorafin, aluminium hydroxide, magnesium hydroxide are as fire retardant.Halogen organic phosphate flame-retardant function is higher, also has the plastifying effect, is plasticising type fire retardant.

Both are the packing type fire retardant aluminium hydroxide, magnesium hydroxide, Halogen, nontoxic, press down cigarette, by a minute heat of desorption, generate water vapour and diluting effect and bring into play flame-retarded efficiency.The initial decomposition temperature of aluminium hydroxide is about 205 ℃, and magnesium hydroxide can reach 320 ℃.Both decomposition temperature differences can reach the effect that gradient is divided heat of desorption.

Described phosphonate fire retardant effect is very good, owing to have the C-P key in the phosphonic acid ester molecule, so its stability is fine, extraordinary water tolerance, solvent resistance is arranged.The Pyrovatex of external Ciba-Geigy company development is a N-methylol Propionamides methylphosphonate, and the Antiblaze19 of Mobil company development is phosphonic acid ester in the ring.The domestic phosphonic acid ester that synthesizes has: N, N-Ursol D base (2-hydroxyl) dibenzyl phosphonic acids tetra-ethyl ester, dimethyl methyl phosphonate (DMMP).Wherein DMMP is a kind of additive flame retardant that develops in recent years.DMMP is to be raw material with the phosphonous acid trimethyl, under catalyst action isomerization reaction takes place, and makes through molecular transposition.The outstanding feature of DMMP be phosphorus content up to 25%, flame retardant effect is very good, addition just can be brought into play same effect for a half of fire retardant commonly used.

Fusing assistant is the another kind of important material that adds among the present invention.Be heated at coating under the condition of charcoal, material phosphorous or siliceous in this type of fusing assistant and the coating reacts, and forms a kind of softish or liquid material.The gas that one or more composition thermolysiss in this coating system discharge expands this material.This type of fusing assistant comprises hydration boric acid, zinc borate, boron oxide, Sodium Tetraborate, potassium borate, ammonium borate or boric acid ester.

Described boric acid ester is butyl borate and boric acid phenylester.

For expanding fire-proof paint, if expanding layer is loose, high more its fire endurance that foams is poor more, and the intensity that therefore increases expanding layer is one of key that improves the frie retardant coating fire endurance.Suitably improve the ratio of filler in prescription, help improving the intensity of expanding layer, anti-hydro carbons fire and gaseous detonation are played important effect.When selecting color stuffing, select tinting strength height, hot reflection coefficient height, thermal conductivity are low, can play skeleton function to charring layer mineral dye, filler as far as possible.

The inventor is by a large amount of tests, find that some powders and fibrous material can be used as filling, supporting material, the preferred titanium dioxide of the present invention, aluminum oxide, light calcium carbonate, wollastonite, slag wool, high territory, silica powder, process white, rock wool, cenosphere, glass wool and various fire-resistant cotton filling, the supporting material done.

Toxic gas such as carbon monoxide and hydrogen halide is murderous first reason in the fire.In order to reduce the generating capacity of toxic smog, the present invention has also added smog inhibitor specially, and smog inhibitor commonly used has: aluminium hydroxide, magnesium hydroxide, aluminum oxide, lime carbonate, zinc borate, key acid zinc, expansible black lead etc.For the purpose of the present invention, preferred expansible black lead and magnesium hydroxide.

Auxiliary agent of the present invention comprises reactive thinner, toughner, curing catalyst, dispersion agent, flow agent and defoamer.

Described reactive thinner is a kind of low molecule, low viscosity, can participates in the film forming epoxide of crosslinking curing.Reactive thinner not only can reduce execution of coating viscosity, and is one of film forming matter, and it is the important materials that promotes coating solid part, reduces coating application viscosity.But excessive reactive thinner can influence film performance.The consumption of single functionality reactive thinner is no more than 15% of content of epoxy resin, and the consumption of difunctionality or three-functionality-degree reactive thinner can reach the 20%-25% of content of epoxy resin.Selectable reactive thinner has: alicyclic diepoxide (epoxy 269, epoxy 206, epoxy 201, epoxy 221), butanols, isooctyl alcohol, phenol, alkylphenol, trihydroxymethylpropanyltri diglycidyl ether, n-butyl glycidyl ether, glycidyl allyl ether, methyl propenoic acid glycidyl ether, poly-ethanol glycidyl ether, butanediol diglycidyl ether, cresylglycidylether, glycerol epoxy resin.

Described toughner comprises: turps, furfuryl alcohol, coumarone-indene based polymer, coal tar, epoxidation cardanol, polypropylene glycol diglycidyl ether, epoxy soybean oil, hydrogenated castor oil, thiorubber etc.Preferred coumarone-indene based polymer of this patent and epoxy soybean oil are as toughner.

Expanding fire-proof paint preparation method of the present invention: each raw material in the A component is added in the material-compound tank together, stir, it is qualified to be ground to fineness with three-roll grinder, is uniformly dispersed with homogenizer.The preparation method of B component is identical with the A component.

A, B two components are pressed the mixed of 2:1-4:1 and are used.Can adopt the method for spraying, brushing, blade coating to construct.Expanding fire-proof paint of the present invention can spread indoors, steel, aluminium and the other materials surface of open air, has outstanding fire resistance.

Solvent-free expansion type fire-proof epoxy coating of the present invention has that fire insulation performance is good, bonding force is good, intensity is high, can stand high low temperature round-robin influence, the water tolerance of coating, resistance to acids and bases, salt tolerant corrodibility are good, snappiness is good, difficult drop-off, shelf-stable, characteristics such as easy construction, be particularly suitable for indoor, outdoor steel, aluminium and other materials and avoid Mierocrystalline cellulose fire and hydro carbons fire and flame and blast, in 25 years, do not influence flameproof effect, look many work-ing life than conventional expanded type frie retardant coating.

Embodiment

Following examples are used for further specifying the present invention.

Embodiment 1

A component: extracting epoxy resin E-51,21 parts, 7.5 parts of bisphenol f type epoxy resins, 5.5 parts of hydrogenated castor oils, 4 parts of butanediol diglycidyl ethers, 8.5 parts of ammonium polyphosphates, 13.2 parts of tetramethylolmethanes, 5.6 parts of clorafins, 18 parts of Calucium Silicate powder, 10 parts of boron oxides, 3 parts of titanium whites, 15.3 parts in aluminium hydroxide, 2 parts of auxiliary agents;

B component: 18 parts of polyamide resins, 17.5 parts in lime carbonate, 8 parts of magnesium hydroxides, 3 parts of hydrogenated castor oils;

A, B two components are pressed the mixed of 2.4:1 and are used.

Embodiment 2

A component: extracting epoxy resin E-54,28 parts, 9.5 parts in aminoresin, 10.5 parts of 3.2 parts of polypropylene glycols of epoxy soybean oil, ammonium polyphosphate 8.5, tetramethylolmethane 13.5, Secondary ammonium phosphate 10.4,7.5 parts of Calucium Silicate powder, 8.5 parts of potassium borates, 2 parts of titanium dioxide, 30.5 parts in aluminum oxide, auxiliary agent 2;

B component: 20 parts of polyamide resins, 15 parts in diatomite, 3 parts of hydrogenated castor oils;

A, B two components are pressed the mixed of 3.5:1 and are used.

Embodiment 3

A component: extracting epoxy resin E-51,26 parts, 9.9 parts of acrylic resins, 10.5 parts of polypropylene glycols, 14.5 parts of ammonium polyphosphates, 8.5 parts of tetramethylolmethanes, 8 parts of trimeric cyanamides, 11 parts of Secondary ammonium phosphates, 7 parts of butyl borates, 17 parts in lime carbonate, 1.6 parts of titanium dioxide, 20 parts in aluminium hydroxide, 3 parts of auxiliary agents;

B component: 20 parts of polyamide resins, 11 parts of magnesium hydroxides, 3.6 parts of alkylphenols, auxiliary agent 1;

A, B two components are pressed the mixed of 3.8:1 and are used.

Embodiment 4

A component: extracting epoxy resin E-51,25 parts, 7.5 parts of acrylic resins, 6.8 parts of polypropylene glycols, 16 parts of ammonium polyphosphates, 12 parts of tetramethylolmethanes, 6.8 parts of trimeric cyanamides, 8.5 parts of Secondary ammonium phosphates, 15 parts in lime carbonate, 8.5 parts of zinc borates, 4.5 parts of titanium dioxide, 18 parts of magnesium hydroxides, 3 parts of auxiliary agents;

B component: 32 parts of polyamide resins, 7.9 parts in aluminum oxide, 5 parts of hydrogenated castor oils, 15 parts in aluminium hydroxide, 1 part of auxiliary agent;

A, B two components are pressed the mixed of 2.2:1 and are used.

Embodiment 5

A component: extracting epoxy resin E-51,22 parts, 7.5 parts of Bisphenol F type resins, 4.5 parts of polypropylene glycols, 9.5 parts of ammonium polyphosphates, 11.9 parts of tetramethylolmethanes, 5.2 parts of trimeric cyanamides, 6.8 parts of Secondary ammonium phosphates, 15 parts in lime carbonate, 8 parts of hydration boric acid, 5 parts of titanium dioxide, 6.5 parts of mica powders, 25.4 parts of magnesium hydroxides, 3 parts of auxiliary agents;

B component: 20 parts of polyamide resins, 12.5 parts in aluminium hydroxide, 3 parts of hydrogenated castor oils, 1 part of auxiliary agent;

A, B two components are pressed the mixed of 3.6:1 and are used.

Embodiment 6

A component: extracting epoxy resin E-54,28 parts, 9 parts of Bisphenol F type resins, 8 parts in turps, 15.5 parts of ammonium polyphosphates, 8 parts of tetramethylolmethanes, 8 parts of melamine phosphates, 6.6 parts of clorafins, 8.1 parts of Secondary ammonium phosphates, 15 parts of talcum powder, 12.5 parts of magnesium hydroxides, 5 parts of titanium dioxide, 23.5 parts of potassium borates, 3 parts of auxiliary agents;

B component: 32 parts of polyamide resins, 21.5 parts in aluminium hydroxide, 2 parts of auxiliary agents;

A, B two components are pressed the mixed of 2.7:1 and are used.

Embodiment 7

A component: extracting epoxy resin E-51,22 parts, 7.5 parts of Bisphenol F type resins, 12.5 parts of Tritolyl Phosphates, 8.3 parts in methyl propenoic acid glycidyl ether, 7.5 parts of ammonium polyphosphates, 13.5 parts of tetramethylolmethanes, 8 parts of trimeric cyanamides, 15 parts of Secondary ammonium phosphates, 8 parts of hydration boric acid, 11 parts in lime carbonate, 2 parts of titanium dioxide, 18 parts of magnesium hydroxides, 8.8 parts of expansible black leads, 2 parts of auxiliary agents;

B component: 20 parts of polyamide resins, 18 parts in aluminum oxide, 11 parts in aluminium hydroxide, 1 part of auxiliary agent;

A, B two components are pressed the mixed of 2.8:1 and are used.

Claims (14)

1. an expanding fire-proof paint is characterized in that, is made up of A component and B component, and the prescription of A, B component is as follows:

The component parts by weight

The A component

Resins, epoxy 10-30

Modified resin 5-20

Catalyzer 5-20

Char-forming agent 10-35

Whipping agent 5-20

Fire retardant 15-40

Fusing assistant 5-15

Color stuffing 10-25

Smog inhibitor 2-15

The B component

Color stuffing 10-25

Solidifying agent 10-50

Auxiliary agent 2-15

Described Resins, epoxy, be selected from following one or more: bisphenol A type epoxy resin, bisphenol f type epoxy resin, TDE-85 Resins, epoxy, glycolylurea epoxide resin, glycidyl amine type epoxy resin, polybutadiene epoxy resin, hydrogenated bisphenol A epoxy resin;

Described modified resin be selected from following one or more: urethane, furane resin, aminoresin, Bisphenol F type resin, vinyl ester resins, acrylic resin, resol, Synolac, HCPE, chlorinated polyether resin, epoxy soybean oil, hydrogenated castor oil, polyvinyl butyral, chlorinated rubber, carboxybutyl rubber, aldehyde ketone resin, coal tar;

The usage ratio of described A, B component is 2 ~ 4:1.

2. according to the expanding fire-proof paint of claim 1, it is characterized in that, described solidifying agent be selected from following one or more: your ketone diamines of polyamide-based, liquid anhydrides, ketimine compound, diaminodiphenyl-methane, m-xylene diamine, the different fluorine of modification, aliphatic polyamine, diketone acrylamide affixture, thio-alcohol.

3. according to the expanding fire-proof paint of claim 2, it is characterized in that, in described solidifying agent, add one or more flexible materials to its modification: epoxy soybean oil, hydrogenated castor oil, urethanum-acrylate copolymer.

4. according to the expanding fire-proof paint of claim 1, it is characterized in that, described catalyzer be selected from following one or more: the two trimeric cyanamides of primary ammonium phosphate, urea phosphate, ammonium polyphosphate, ammonium polyphosphate potassium, Potassium tripolyphosphate, melamine phosphate, phosphoric acid, melamine pyrophosphate, organophosphate, borate or ester and derivative, sulphonate and derivative.

5. according to the expanding fire-proof paint of claim 4, it is characterized in that, with one or more of following material described catalyzer is carried out surface treatment: silane coupling agent, titanate coupling agent, methyl-silicone oil, dimethyl silicone oil, containing hydrogen silicone oil, Zinic stearas, aminoresin, Resins, epoxy, resol.

6. according to the expanding fire-proof paint of claim 5, it is characterized in that, adopt silicone oil series that ammonium polyphosphate is carried out making catalyzer after the surface treatment.

7. according to the expanding fire-proof paint of claim 1, it is characterized in that, described char-forming agent be selected from following one or more: starch, Mierocrystalline cellulose and derivative, sucrose, sorbyl alcohol, tetramethylolmethane and derivative, Resins, epoxy, resol, aldehyde ketone resin.

8. according to the expanding fire-proof paint of claim 1, it is characterized in that, described whipping agent be selected from following one or more: the phosphoric acid salt of Dyhard RU 100, trimeric cyanamide, clorafin, urea, trimeric cyanamide and borate.

9. according to the expanding fire-proof paint of claim 1, it is characterized in that, described fire retardant be selected from following one or more: two (2, the 3-dibromopropyl) ethers of tetrabromo-bisphenol, decabromodiphynly oxide, clorafin, phosphoric acid ester and Halogen derivative thereof, phosphonic acid ester, phosphorous acid ester, aluminium hydroxide, magnesium hydroxide, aluminum oxide, antimonous oxide, colloidal antimony pentoxide, zinc borate, zinc oxide.

10. according to the expanding fire-proof paint of claim 1, it is characterized in that, described fusing assistant be selected from following one or more: hydration boric acid, zinc borate, boron oxide, Sodium Tetraborate, potassium borate, ammonium borate or boric acid ester.

11. expanding fire-proof paint according to claim 1, it is characterized in that, described color stuffing be selected from following one or more: titanium dioxide, aluminum oxide, light calcium carbonate, wollastonite, slag wool, high territory, silica powder, process white, rock wool, cenosphere, glass wool and various fire-resistant cotton.

12. the expanding fire-proof paint according to claim 1 is characterized in that, described smog inhibitor be selected from following one or more: aluminium hydroxide, magnesium hydroxide, aluminum oxide, lime carbonate, zinc borate, key acid zinc, expansible black lead.

13. the expanding fire-proof paint according to claim 1 is characterized in that, described auxiliary agent comprises: reactive thinner, toughner, curing catalyst, dispersion agent, flow agent and defoamer.

14. expanding fire-proof paint according to claim 13, it is characterized in that, described reactive thinner be selected from following one or more: alicyclic diepoxide, butanols, isooctyl alcohol, phenol, alkylphenol, trihydroxymethylpropanyltri diglycidyl ether, n-butyl glycidyl ether, glycidyl allyl ether, methyl propenoic acid glycidyl ether, poly-ethanol glycidyl ether, butanediol diglycidyl ether, cresylglycidylether, glycerol epoxy resin.