CN106479286A - Heat-insulated radial pattern coating of a kind of fluorine carbon not being cracked and preparation method thereof - Google Patents

Abstract

The heat-insulated radial pattern coating of a kind of fluorine carbon not being cracked, it is characterised in which is prepared from by the following raw material：CTFE, INFRARED ABSORPTION nano-powder, perfluorobutyl ethylene, amyl group vinyl ethers, DAAM, ammonium persulfate, cumyl peroxide, tributyl phosphate, neopentyl glycol, trimethylolpropane, absolute ethyl alcohol, carbon nanopowder, diisocyanate, calgon, γ mercaptopropyltriethoxysilane, hydroxyethyl cellulose, prenol, NPE, appropriate sodium carbonate, appropriate deionized water.The heat-insulated radial pattern coating good heat-insulation effect of the fluorine carbon not being cracked of the present invention；And with excellent mechanical performance, excellent adhesive force；Excellent weatherability, resistance to water, stain resistance, abrasion resistance etc.；Safety and environmental protection, applied widely.

Description

Heat-insulated radial pattern coating of a kind of fluorine carbon not being cracked and preparation method thereof

Technical field

The present invention relates to a kind of coating, the heat-insulated radial pattern coating of the more particularly to a kind of fluorine carbon not being cracked and its preparation side Method.

Background technology

With developing rapidly for China's building trade and becoming increasingly conspicuous for energy crisis, the energy-saving of building is got over Send out important.The building energy consumption of China accounts for the 27% of national energy aggregate consumption, occupies first of national all kinds of energy consumptions.

The energy consumption of heating and air-conditioning accounts for the 55% of building total energy consumption, but also increases in the speed with annual 1 percentage point. Because a little, research and develop insulating mold coating for construction and there is great economic benefit, environmental benefit and social benefit.Make in external wall The original decoration of coating, protection and the function such as mould proof not only can be realized with the coating with heat insulating function, but also make coating With heat-insulated function, keep indoor temperature constant, increase the temperature difference of indoor and outdoor, reduce warm energy consumption in summer, reduce in the winter time Heat cost.At present, heat-barrier material is just experiencing transformation to heat-insulating based on heat-insulated from industry, and this is also heat-insulated material from now on One of main development direction of material.Insulating moulding coating has the disadvantage that in the market：

1st, poor insulation property：The density of glass microballoon or ceramic fine bead is high with respect to borosilicate hollow glass micropearl, thus in phase With adding under consumption, the coating acquisition dry film heat insultating cavity using glass microballoon or ceramic fine bead is few, and coating thickness is relatively low, adiabatic Poor performance；

2nd, poor storage stability：Glass microballoon or ceramic fine bead etc. are through surface treatment and density is relatively low, make coating in storage During easily produce the phenomenon that viscosity increases and floats；

3rd, construct inconvenient：Using glass microballoon or the insulating moulding coating of ceramic fine bead, in order to prevent that floated during storing to show As generally improving the initial viscosity of coating, thus higher paint film can only be obtained using by the way of blade coating or batch painting during construction Thickness.

Author Li little Bing et al. exists《The preparation of multifunctional aqueous nano combined insulating mold coating for construction》In one text, with aqueous poly- Urethane be film forming agent, with well dispersed talcum powder as filler, the rutile titanium dioxide of high reflection, hollow glass micropearl be every Hot merit energy color stuffing, adds the sericite of high radiance, improves dispersiveness of the Nano filling in coating, system through high speed dispersion Standby multifunctional aqueous nano composite heat insulation insulating moulding coating；The multifunctional aqueous nano composite heat insulation insulating moulding coating that is developed, its every Hot excellent thermal insulation performance and the characteristic with high-quality low-cost.

Content of the invention

For the problems referred to above existing for prior art and demand, it is an object of the invention to provide good heat-insulation effect, storage Stably, heat-insulated radial pattern coating of the fluorine carbon not being cracked of easy construction and preparation method thereof.

For achieving the above object, technical scheme is as follows：

The heat-insulated radial pattern coating of a kind of fluorine carbon not being cracked, it is characterised in which is prepared from by the raw material of following weight portion：Three 200 parts of fluorine vinyl chloride, INFRARED ABSORPTION nano-powder 30-40 part, perfluorobutyl ethylene 30-40 part, amyl group vinyl ethers 30-40 Part, DAAM 15-20 part, ammonium persulfate 3-5 part, cumyl peroxide 12-15 part, tributyl phosphate 6-8 part, Neopentyl glycol 12-15 part, trimethylolpropane 8-10 part, absolute ethyl alcohol 150-200 part, carbon nanopowder 15-20 part, two isocyanic acids Ester 15-20 part, calgon 5-6 part, gamma-mercaptopropyltriethoxysilane 8-10 part, hydroxyethyl cellulose 8-10 part, isoamyl Enol 6-8 part, NPE 8-10 part, appropriate sodium carbonate, appropriate deionized water.

The heat-insulated radial pattern coating of the described fluorine carbon not being cracked, it is characterised in that described INFRARED ABSORPTION nano-powder, by The raw material of following weight portion is prepared from：100 parts of sorbierite, ethylene glycol 60-80 part, 30 parts of wolframic acid, cesium sulfate 10-15 part, go Ion appropriate amount of water, appropriate absolute ethyl alcohol；Described INFRARED ABSORPTION nano-powder, is prepared from by following steps：By sorbierite and Ethylene glycol heating for dissolving in the jacket reactor, adds wolframic acid and cesium sulfate, after high-speed stirred 30-40min, pumps into homogenizer and enter Row circulation homogenizes, and pumps into product and is heated in 140-150 DEG C of autoclave, by autoclave after 60-80min Rotating speed is set to 180-200r/min, after above-mentioned material is completely transferred to autoclave, closes each valve of autoclave, with 10- Temperature of reaction kettle is risen to 350 DEG C by the heating rate of 15 DEG C/min, and is incubated 10-12h, cools to 140-150 DEG C, is released anti- Product is answered, deionized water is added thereto to, material is squeezed into filter press, with deionized water, absolute ethanol washing 3-5 time, will filter Vacuum drying oven drying put into by cake, then carries out mechanical crushing and air-flow crushing, that is, obtain INFRARED ABSORPTION nano-powder.

The heat-insulated radial pattern coating of the described fluorine carbon not being cracked, it is characterised in that the heat-insulated spoke of the described fluorine carbon not being cracked Emitting coating its be prepared from by following steps：

（1）Neopentyl glycol, trimethylolpropane, carbon nanopowder are added in absolute ethyl alcohol, 60-75 DEG C is warming up to, stirring point Scattered 40-50min, then, adds diisocyanate, calgon, stirs 40-60min, then be warming up to 85-95 DEG C, add Gamma-mercaptopropyltriethoxysilane, stirs 3-4h, is cooled to room temperature, grinds 30-40min, stand-by；

（2）By CTFE, INFRARED ABSORPTION nano-powder, the deionized water equivalent to 10-12 times of CTFE weight portion, Be added in reactor, sodium carbonate added as nertralizer, adjust pH value to 6-7, be subsequently adding perfluorobutyl ethylene, amyl group ethene Base ether and DAAM, high-speed stirred dispersion and emulsion 40-50min, obtain emulsion droplets particle diameter to be polymerized less than 800nm Pre-emulsion；Continue to lead to nitrogen under high velocity agitation in reactor, the oxygen concentration in exclusion reactor to below 80ppm, Under blanket of nitrogen, make the emulsion in reactor that 60-70 DEG C is warmed up to, drip ammonium persulfate and equivalent to ammonium persulfate weight portion 5-6 The solution of deionized water configuration again, controls in 40-60min completion of dropping, 60-70 DEG C of isothermal reaction 5-8h, is warmed up to 75-85 DEG C continue reaction 1-2h, 30 DEG C are cooled to, sodium carbonate is added, the pH value of emulsion is adjusted to 6-7；Add cumyl peroxide, 50-60 DEG C is continued reaction 6-8h；

（3）To step（2）Product in add tributyl phosphate, step（1）Product and hydroxyethyl cellulose, with 1800- 2000rpm stirs 30-60min；Prenol and NPE is added, 40-50min is stirred with 800-1000rpm, Obtain final product the heat-insulated radial pattern coating of the fluorine carbon not being cracked.

Application technical scheme, with following technique effect：

The present invention adds INFRARED ABSORPTION nano-powder, using solvent heat liquid phase method technique, produces caesium tungsten bronze with wolframic acid, cesium sulfate INFRARED ABSORPTION nano-powder；Concentrate on 0.78-2.5 mum wavelength based on 95% of heat energy in sunshine wave band, and caesium tungsten bronze Lacking oxygen in INFRARED ABSORPTION nano-powder can produce to absorb to the infrared ray of this section of wavelength makes the electron transition of caesium and tungsten paramount Energy position, produces reflection and the diffraction of light wave luminous energy, enters basic unit so as to separate heat energy, obtains good effect of heat insulation；This Invention is polymerized the fluorocarbon resin for obtaining as film forming agent with CTFE, perfluorobutyl ethylene and amyl group vinyl ethers, then with double Acetone acrylamide and cumyl peroxide carry out cross-linking modified to fluorocarbon resin, enhance toughness and the weatherability of coating, Improve wearability and the adhesion property of coating；The present invention is using carbon nanopowder as filler, and γ-mercapto propyl triethoxy Silane and diisocyanate crosslinking are coated on carbon nanopowder surface, be uniformly dispersed, increase the compactness of coating in fluorocarbon resin, Improve insulating moulding coating adhesive force and crack resistance energy；The heat-insulated radial pattern coating good heat-insulation effect of the fluorine carbon of the present invention；And have Excellent mechanical performance, excellent adhesive force；Excellent weatherability, resistance to water, stain resistance, abrasion resistance etc.；Safety and environmental protection, Applied widely.

Specific embodiment

The heat-insulated radial pattern coating of the fluorine carbon not being cracked of the present embodiment, which is prepared from by the raw material of following weight portion：Three 200 parts of fluorine vinyl chloride, 40 parts of INFRARED ABSORPTION nano-powder, 40 parts of perfluorobutyl ethylene, 40 parts of amyl group vinyl ethers, diacetone third 20 parts of acrylamide, 5 parts of ammonium persulfate, 15 parts of cumyl peroxide, 8 parts of tributyl phosphate, 15 parts of neopentyl glycol, trihydroxy methyl 10 parts of propane, 200 parts of absolute ethyl alcohol, 20 parts of carbon nanopowder, 20 parts of diisocyanate, 6 parts of calgon, γ-mercapto propyl group three 10 parts of Ethoxysilane, 10 parts of hydroxyethyl cellulose, 8 parts of prenol, 10 parts of NPE, appropriate sodium carbonate, Appropriate deionized water.

The INFRARED ABSORPTION nano-powder of the present embodiment, is prepared from by the raw material of following weight portion：100 parts of sorbierite, second 60 parts of glycol, 30 parts of wolframic acid, 15 parts of cesium sulfate, appropriate deionized water, appropriate absolute ethyl alcohol；Described INFRARED ABSORPTION nano powder Body, is prepared from by following steps：By sorbierite and ethylene glycol in the jacket reactor heating for dissolving, add wolframic acid and sulfuric acid Caesium, after high-speed stirred 40min, pumps into homogenizer and is circulated and homogenize, pump into product and be heated to 150 DEG C after 80min In autoclave, autoclave rotating speed is set to 200r/min, after above-mentioned material is completely transferred to autoclave, closes high Temperature of reaction kettle is risen to 350 DEG C with the heating rate of 15 DEG C/min, and is incubated 12h, cools to by each valve of pressure reactor 150 DEG C, product is released, deionized water is added thereto to, material is squeezed into filter press, washed with deionized water, absolute ethyl alcohol Wash 5 times, filter cake is put into vacuum drying oven drying, then mechanical crushing and air-flow crushing is carried out, that is, obtain INFRARED ABSORPTION nano-powder.

The heat-insulated radial pattern coating of the fluorine carbon not being cracked of the present embodiment its be prepared from by following steps：

（1）Neopentyl glycol, trimethylolpropane, carbon nanopowder are added in absolute ethyl alcohol, 75 DEG C are warming up to, dispersed with stirring 50min, then, adds diisocyanate, calgon, stirs 60min, then be warming up to 95 DEG C, add γ-three second of mercapto propyl group TMOS, stirs 4h, is cooled to room temperature, grinds 40min, stand-by；

（2）By CTFE, INFRARED ABSORPTION nano-powder, the deionized water equivalent to 12 times of CTFE weight portion, plus To in reactor, sodium carbonate is added as nertralizer, adjust pH value to 6-7, be subsequently adding perfluorobutyl ethylene, amyl group vinyl Ether and DAAM, high-speed stirred dispersion and emulsion 50min, obtain to be polymerized pre- breast of the emulsion droplets particle diameter less than 800nm Liquid；Continue to lead to nitrogen in reactor under high velocity agitation, the oxygen concentration in reactor is excluded to below 80ppm, in nitrogen Under atmosphere, make the emulsion in reactor that 70 DEG C are warmed up to, drip ammonium persulfate and the deionization equivalent to 6 times of ammonium persulfate weight portion The solution of water configuration, controls in 60min completion of dropping, 70 DEG C of isothermal reaction 8h, is warmed up to 85 DEG C and continues reaction 2h, cools to 30 DEG C, sodium carbonate is added, and the pH value of emulsion is adjusted to 6-7；Cumyl peroxide is added, 60 DEG C are continued reaction 8h；

（3）To step（2）Product in add tributyl phosphate, step（1）Product and hydroxyethyl cellulose, with 2000rpm Stirring 60min；Prenol and NPE is added, 50min is stirred with 1000rpm, obtains final product the fluorine carbon not being cracked Heat-insulated radial pattern coating.

After tested, the temperature difference of coating both sides is more than 10 DEG C, and heat-insulated rate is more than 85%.

Claims (3)

1. the heat-insulated radial pattern coating of a kind of fluorine carbon not being cracked, it is characterised in which is prepared from by the raw material of following weight portion： 200 parts of CTFE, INFRARED ABSORPTION nano-powder 30-40 part, perfluorobutyl ethylene 30-40 part, amyl group vinyl ethers 30-40 Part, DAAM 15-20 part, ammonium persulfate 3-5 part, cumyl peroxide 12-15 part, tributyl phosphate 6-8 part, Neopentyl glycol 12-15 part, trimethylolpropane 8-10 part, absolute ethyl alcohol 150-200 part, carbon nanopowder 15-20 part, two isocyanic acids Ester 15-20 part, calgon 5-6 part, gamma-mercaptopropyltriethoxysilane 8-10 part, hydroxyethyl cellulose 8-10 part, isoamyl Enol 6-8 part, NPE 8-10 part, appropriate sodium carbonate, appropriate deionized water.

2. the heat-insulated radial pattern coating of the fluorine carbon not being cracked according to claim 1, it is characterised in that described INFRARED ABSORPTION Nano-powder, is prepared from by the raw material of following weight portion：100 parts of sorbierite, ethylene glycol 60-80 part, 30 parts of wolframic acid, cesium sulfate 10-15 part, appropriate deionized water, appropriate absolute ethyl alcohol；Described INFRARED ABSORPTION nano-powder, is prepared from by following steps： By sorbierite and ethylene glycol in the jacket reactor heating for dissolving, add wolframic acid and cesium sulfate, after high-speed stirred 30-40min, pump Enter homogenizer and be circulated to homogenize, product is pumped into after 60-80min and be heated in 140-150 DEG C of autoclave, will Autoclave rotating speed is set to 180-200r/min, after above-mentioned material is completely transferred to autoclave, closes autoclave each Temperature of reaction kettle is risen to 350 DEG C with the heating rate of 10-15 DEG C/min, and is incubated 10-12h, cools to 140- by valve 150 DEG C, product is released, deionized water is added thereto to, material is squeezed into filter press, washed with deionized water, absolute ethyl alcohol Wash 3-5 time, filter cake is put into vacuum drying oven drying, then mechanical crushing and air-flow crushing is carried out, that is, obtain INFRARED ABSORPTION nano powder Body.

3. the heat-insulated radial pattern coating of the fluorine carbon not being cracked according to claim 1, it is characterised in that described be not cracked The heat-insulated radial pattern coating of fluorine carbon its be prepared from by following steps：

（1）Neopentyl glycol, trimethylolpropane, carbon nanopowder are added in absolute ethyl alcohol, 60-75 DEG C is warming up to, stirring point Scattered 40-50min, then, adds diisocyanate, calgon, stirs 40-60min, then be warming up to 85-95 DEG C, add Gamma-mercaptopropyltriethoxysilane, stirs 3-4h, is cooled to room temperature, grinds 30-40min, stand-by；

（2）By CTFE, INFRARED ABSORPTION nano-powder, the deionized water equivalent to 10-12 times of CTFE weight portion, Be added in reactor, sodium carbonate added as nertralizer, adjust pH value to 6-7, be subsequently adding perfluorobutyl ethylene, amyl group ethene Base ether and DAAM, high-speed stirred dispersion and emulsion 40-50min, obtain emulsion droplets particle diameter to be polymerized less than 800nm Pre-emulsion；Continue to lead to nitrogen under high velocity agitation in reactor, the oxygen concentration in exclusion reactor to below 80ppm, Under blanket of nitrogen, make the emulsion in reactor that 60-70 DEG C is warmed up to, drip ammonium persulfate and equivalent to ammonium persulfate weight portion 5-6 The solution of deionized water configuration again, controls in 40-60min completion of dropping, 60-70 DEG C of isothermal reaction 5-8h, is warmed up to 75-85 DEG C continue reaction 1-2h, 30 DEG C are cooled to, sodium carbonate is added, the pH value of emulsion is adjusted to 6-7；Add cumyl peroxide, 50-60 DEG C is continued reaction 6-8h；

（3）To step（2）Product in add tributyl phosphate, step（1）Product and hydroxyethyl cellulose, with 1800- 2000rpm stirs 30-60min；Prenol and NPE is added, 40-50min is stirred with 800-1000rpm, Obtain final product the heat-insulated radial pattern coating of the fluorine carbon not being cracked.