CN1800283A - Insulating mold coating and its uses - Google Patents

Abstract

The invention relates to a heat-insulating paint, which comprises: 15-65 parts by weight of film-forming material; 3-20 parts by weight of nano-porous SiO ₂ ; 1-12 parts by weight of nano-iron oxide yellow; 5-30 parts by weight of pigment; 3-22 parts by weight; 0.4-8 parts by weight of auxiliary agent; 6-30 parts by weight of solvent. The heat-insulating coating can be widely used in various cooling and heat-insulating equipment or buildings, especially for exterior walls, metal storage tanks, pipelines, instruments and equipment, transportation, industrial buildings, civil buildings, and aircraft. A coating thickness of 20 μm can significantly improve the heat insulation and cooling effect, and the optimum coating thickness is 35-45 μm. The thermal insulation coating has high reflectivity to solar heat and infrared radiation, high thermal insulation efficiency, strong UV resistance, super weather resistance, strong adhesion and high self-cleaning performance.

Description

A kind of heat insulation coating and its application

technical field

The invention relates to a paint, in particular to a new type of heat-insulating paint that can be widely used in various cooling and heat-insulating equipment or buildings and its application.

Background technique

In today's world, human's consumption of energy is increasing rapidly, which makes energy shortage, which drives up the price of energy and related products. Take China as an example. In recent years, power consumption has continued to be tense. In 2004, nearly 30 provincial-level power grids were shut down, and a large number of factories were forced to stop production, causing a lot of economic losses. In 2003, China's daily crude oil consumption increased by 440,000 barrels, contributing 35% to the growth of global crude oil demand; by 2020, the lower limit of China's oil demand will be 450 million tons, and the upper limit will be 610 million tons. The total demand will reach 2.5 billion tons of standard coal, which is 90% to 152% higher than that in 2000, and the dependence on overseas resources will reach at least 55%, which is roughly equivalent to the current US dependence on foreign countries of 58%. Although humans are constantly trying to develop new energy sources, they have not yet found a new energy source that can completely replace oil, coal, natural gas, etc., which are related to the national economy and people's livelihood. Therefore, how to efficiently use energy and reduce energy waste is even more important.

There are many reasons for wasting energy. Take the field of heat insulation as an example. In the hot summer, due to the radiation of the sun, the surface temperature of metal and cement storage tanks in petrochemical and wineries is as high as fifty or sixty degrees, and the temperature inside the tank will be even higher, which not only causes a large amount of evaporation consumption, pollute the environment, and cause danger. The traditional method of painting with silver powder paint and using spray water to cool down will corrode the equipment and waste energy, and the service life of the equipment is short, only two or three years. The heating of granaries and granaries will accelerate the deterioration of grains and the infestation of insects. Using air conditioners to cool down consumes a lot of electricity and costs a lot. Aircraft, factory instruments and equipment, etc. have reduced service life or reduced accuracy due to heat radiation or infrared radiation, which also causes waste. In short, from industrial buildings to civil buildings, from storage tanks, pipelines, workshops, warehouses, instruments and equipment, aircraft to residential buildings, sales halls, telephone halls, etc. due to the influence of radiation heating, traditional methods to cool down will cause A lot of waste of manpower, material resources and financial resources.

The importance of this problem has long been recognized, and various solutions have been proposed and implemented. In the existing related technology, Chinese patent CN1204672A discloses a white modified acrylic alkyd reflective solar heat coating, but its solar heat reflectance is low, only 80%, and the color is single, and the outdoor weather resistance is poor. Chinese patent CN1405248A discloses an acrylic resin solar heat reflective coating, but its adhesion is poor, its impact strength is not high, its solar heat absorption rate changes greatly with time, and it does not have the performance of reflecting infrared radiation. Chinese patent CN1257897A discloses a kind of heat-insulating coating that can not only reflect solar heat, but also have certain heat-insulating and self-cleaning effects, but the effects are not very good. In addition, the reflective coatings disclosed in Japanese Patent JP98-1209466, German Patent DE19501114, US Patent US5540998, and Chinese Patent CN1434063A all have low reflectivity and poor heat insulation efficiency.

Contents of the invention

The purpose of the present invention is to overcome the defects of low reflectivity, poor heat insulation efficiency, single color, poor outdoor weather resistance and adhesion, and low impact strength of existing solar heat reflective coatings, thereby providing a Both solar heat and infrared radiation have high reflectivity, high heat insulation efficiency, strong UV resistance, and a new type of heat insulation coating with super weather resistance, strong adhesion and high self-cleaning performance, and its application.

The purpose of the present invention is achieved through the following technical solutions:

The thermal insulation paint provided by the invention comprises:

                                                                                                                                                                                                                                                                                                        

3-20 parts by weight of nanoporous SiO ₂ ;

  Nano iron oxide yellow   1-12 parts by weight;

Pigment 5-30 parts by weight;

Filler 3-22 parts by weight;

Auxiliaries 0.4 to 8 parts by weight;

Solvent 6-30 parts by weight;

The film-forming material includes polyester resin, alkyd resin, epoxy resin, acrylic resin, amino resin, phenolic resin, polyvinyl chloride resin, organosilicon modified polyester resin, organosilicon modified acrylic resin, organosilicon Resin, fluorocarbon resin, according to different performance requirements, choose different resins.

The particle diameter of described nanoporous _SiO2 is 10～600nm, and its preparation method is as follows: add 100ml ethanol in the there-necked flask, add 0.2～1.2ml concentration and be the ethanol solution of 0.1M brine and 0.1M polymer under stirring, Continue to stir at room temperature, nitrogen protection, then add 0.8 ~ 4.2ml of tetraethyl orthosilicate (TEOS), fully stir for 1 ~ 5h, let stand, wash with ethanol after centrifugation, repeat several times, finally at 230 ~ Sintering at 460°C and sieving to obtain nanoporous SiO ₂ ;

Wherein, the salt includes NaCl, NaI, KBr, KCl, KI, KNO ₃ , LiCl, CsCl, etc.;

The polymer is R _a O(CH ₂ CH ₂ O) _b H, R _a is an alkyl group of C ₆ to C ₁₈ , b=3 to 15; or HO(CH ₂ CH ₂ O)x(CH( CH ₃ )CH ₂ O)y(CH ₂ CH ₂ O)zH, x, y, z=1-65, and the molar mass is 1650-2900 g/mol.

The particle size of the nano iron oxide yellow is 10-500nm, and its preparation method is disclosed in CN200410047955.3.

The pigment is selected from rutile titanium dioxide, phthalocyanine blue, phthalocyanine green, carbon black, iron oxide red, zinc chrome yellow, medium chrome yellow, lemon chrome yellow, deep chrome yellow, chrome green, molybdenum chrome red one or several.

The filler is one or more selected from zinc oxide, barium sulfate, silicon dioxide, talcum powder, sericite, light calcium carbonate, and wollastonite powder.

Described auxiliary agent comprises dispersant (as BYK-110, BYK-P104, Disperbyk-130 of BYK Chemie Company of Germany; Efka-766, Efka Polymer452 of EFKA Company of Holland), defoamer (BYK-104 such as BYK Chemie Company of Germany) 065, BYK-052; Efka-20 from EFKA in the Netherlands; Airex970 from Tego in Germany), leveling agents (such as BYK-354 and BYK-300 from BYK Chemie in Germany; Efka-30 and Efka-772 from EFKA in the Netherlands ), acid catalyst (such as BYK-Catalyst450 of BYK Chemie Company in Germany; NACURE155, 1051, K-CURE1040 of KIMG INDUSTRIES Company), anti-settling agent (such as anti-settling agent 902, 201P of Taiwan Deqian Trading Company; Bayer Company of Germany BORCHIGEL THIXO Z, etc.), plasticizer (such as plasticizer DOP, tributyl phosphate of Shanghai Solvent Factory; EDENOL ^® 344 of German Henkel Company), slip agent (such as 840SL, AMA of Taiwan Sanhua Industrial Company; Allied Signal company's A-C6, Acumist B-6), thickener (such as DEHYSOL ^® R, RILANIT ^® 45 of Henkel Company in Germany), curing agent (such as KB, KC, DBTDL curing accelerator of Taiwan Deqian Trading Company ; Jiangxi Taixing Coating Auxiliary Factory's JTY curing accelerator) in one or more.

Described solvent is selected from ethyl acetate, butyl acetate, ethylene glycol ethyl ether acetate, xylene, ethylene glycol butyl ether, butanol, methyl isobutyl ketone, propylene glycol methyl ether acetate, sherwood oil, One or more of No. 200 paint spirit, cyclohexanone, No. 100 aromatic solvent, No. 150 aromatic solvent, No. 200 aromatic solvent, and mixed dibasic acid diester.

The above-mentioned components are mixed, dispersed, ground, and toned to obtain the heat-insulating coating of the present invention.

The heat-insulating coating provided by the invention can be widely used in various cooling and heat-insulating equipment or buildings, especially for exterior walls, metal storage tanks, pipelines, instruments and equipment, transportation, industrial buildings, civil buildings, and aircraft. A coating thickness of 20 μm can significantly improve the heat insulation and cooling effect, and the optimum coating thickness is 35-45 μm.

When being used for exterior walls, storage tanks, pipelines, instruments and equipment, aircrafts, etc., the novel heat-insulating paint provided by the invention forms the preferred following composition:

Film formers 15-50 parts by weight;

4-20 parts by weight of nanoporous SiO ₂ ;

  Nano iron oxide yellow   1-9 parts by weight;

Pigment 5-30 parts by weight;

Filler 6-22 parts by weight;

Auxiliary 0.4-6 parts by weight;

Solvent 6-25 parts by weight.

When used in color steel plates such as workshops, warehouses, sales halls, and telephone halls, the composition of the novel heat-insulating coating provided by the present invention is preferably as follows:

Film formers 20-65 parts by weight;

3-18 parts by weight of nanoporous SiO ₂ ;

  Nano iron oxide yellow   3-12 parts by weight;

Pigment 5-30 parts by weight;

Filler 3-20 parts by weight;

Auxiliary 0.6-8 parts by weight;

Solvent 10-30 parts by weight.

Compared with the existing solar heat reflective coatings, the new heat-insulating coating provided by the invention has the advantages of strong coating adhesion, excellent anti-corrosion performance, good weather resistance, strong scratch resistance, and can be used as a primer It can also be used as a top coat; and it has a strong ability to reflect heat radiation and high heat insulation efficiency. A coating thickness of 20 μm can significantly improve the heat insulation and cooling effect, and the optimum coating thickness is 35-45 μm; It has excellent self-cleaning performance, and the reflectivity changes little with time.

Detailed ways

The present invention is further described in detail below in conjunction with examples, but is not limited thereto.

Wherein, the nanoporous _SiO2 is self-made according to the following method: add 100ml ethanol to a three-necked flask, and add 0.2 to 1.2ml of brine (NaCl, NaI, KBr, KCl, KI, _KNO3 ) with a concentration of 0.1M under stirring. , LiCl or CsCl) and 0.1M polymer (R _a O(CH ₂ CH ₂ O) _b H, R _a is C ₆ ~ C ₁₈ alkyl, b=3 ~ 15; or HO (CH ₂ CH ₂ O )x(CH(CH ₃ )CH ₂ O)y(CH ₂ CH ₂ O)zH, x, y, z=1～65, and the molar mass is 1650～2900g/mol) ethanol solution, continue to stir at room temperature , protected by nitrogen, then add 0.8~4.2ml tetraethyl orthosilicate (TEOS), fully stir for 1~5h, let stand, wash with ethanol after centrifugation, repeat several times, and finally sinter at 230~460°C , and sieved to obtain nanoporous SiO ₂ ;

The preparation method of the nano iron oxide yellow is disclosed in CN200410047955.3.

Example 1. Seablue Alkyd Resin Novel Exterior Wall Thermal Insulation Coating

The formula of the sea blue alkyd resin novel exterior wall thermal insulation paint provided by the invention is listed in Table 1.

Table 1. The formula of the new type of exterior wall thermal insulation coating made of sea blue alkyd resin materials Specification Dosage/Kg supplier Alkyd Resin Nanoporous SiO ₂ Nano Iron Yellow Phthalocyanine Blue Titanium White Carbon Black Lead Chrome Yellow Precipitated Barium Sulfate Sericite Wollastonite Dispersant Defoamer Leveling Agent Thickener Slip Agent Anti-sedimentation Agent Plasticizer Butyl Acetate SintalR05 (35% oil) 200nm300nmR1216-01BGSR960N110 lemon chrome yellow 5011250m800 mesh 800 mesh BYK-110BYK-065Efka-30DEHYSOL ^® RMW-1875201PDOP solvent 25413.870.10.13342.50.80.20.20.20.20.150.1510 Multi Resine self-made Shenzhen Huasu Chemical Company American DuPont Company Suzhou Baohua Carbon Black Company Shanghai Yipin Pigment Company Kechuang Chemical Company Guoli Superfine Powder Company Guoli Superfine Powder Company BYK Chemie Company BYK Chemie Company Netherlands EFKA Company Germany Henkel Company Taiwan Deqian Trading Company Taiwan Deqian Trading Company Shanghai Solvent Factory Shanghai Dongyan Chemical Company

Embodiment 2, white acrylic resin novel storage tank heat-insulating paint

The formula of the white acrylic resin novel storage tank heat-insulating paint provided by the invention is listed in Table 2.

Table 2. Formulation of white acrylic resin new thermal insulation coating for storage tanks materials Specification Dosage/Kg supplier Acrylic resin nanoporous SiO ₂ nano iron yellow titanium white precipitated barium sulfate sericite zinc oxide light calcium carbonate dispersant defoamer acid catalyst leveling agent anti-sticking slip agent thickener anti-sedimentation agent plasticizer butyl acetate 4404 (solid content 50±1%) 300nm350nmR9601250 mesh 800 mesh A grade 99.7% 1250 mesh BYK-P104BYK-052BYK-Catalyst450Efka-772840SLDEHYSOL ^® R201PAcumist B-6 solvent 3512424311240.70.31.20.20.30.20.20.1515 Shanghai Xinhua Resin Factory self-made self-made U.S. DuPont Company Kechuang Chemical Company Guoli Superfine Powder Company Liuzhou Zinc Products Company Guoli Superfine Powder Company Germany BYK Chemie Company Germany BYK Chemie Company Germany BYK Chemie Company Netherlands EFKA Company Taiwan Sanhua Industry Company Germany Henkel Company Taiwan Deqian Trading Company Allied Signal Company Shanghai Dongyan Chemical Company

Embodiment 3, be used for the acrylic resin novel heat-insulating paint of machine equipment anti-infrared radiation

The formulation of the novel acrylic resin heat-insulating coating for the anti-infrared radiation of machinery and equipment provided by the invention is listed in Table 3.

Table 3. The formula of the new acrylic resin heat-insulating coating used for preventing infrared radiation of machinery and equipment materials Specification Dosage/Kg supplier Acrylic Resin Nanoporous _SiO2 Nano Iron Yellow 4550 (solid content 55±2%) 150nm400nm 501512 Shanghai Xinhua Resin Factory self-made Phthalocyanine Blue Titanium White Carbon Black Chrome Yellow Precipitated Barium Sulfate Sericite Wollastonite Dispersant Defoamer Leveling Agent Curing Agent Thickener Anti-sedimentation Agent Plasticizer Butyl Acetate R1216-01 BGSR960N1151031250 Mesh 800 Mesh 800 Mesh Disperbyk-130Efka-20BYK-300DBTDLRILANIT ^® 45BORCHIGEL THIXO Z Tributyl Phosphate Solvent 3.880.10.13312.50.50.150.154.60.20.150.1517 Shenzhen Huasu Chemical Co., Ltd. American DuPont Co., Ltd. Suzhou Baohua Carbon Black Co., Ltd. Shanghai Yipin Pigment Co., Ltd. Kechuang Chemical Co., Ltd. Guoli Superfine Powder Co., Ltd. Guoli Superfine Powder Co., Ltd. Trading Company Germany Henkel Company Germany Bayer Company Shanghai Solvent Factory Shanghai Dongyan Chemical Company

Embodiment 4, the novel heat-insulating coating of matt organosilicon modified acrylic resin for aircraft

The formulation of the novel heat-insulating paint for the matt silicone modified acrylic resin provided by the invention is listed in Table 4.

Table 4. Formulation of new heat-insulating coatings for matte silicone-modified acrylic resins for aircraft materials Specification Dosage/Kg supplier Acrylic AU-2608 (solid content 60%) 30 American Rohm&Haas Company Silicone Resin Nanoporous SiO ₂ Nano Iron Yellow Titanium White Zinc Oxide Sericite Silica Light Calcium Carbonate MSE100 (solid content 100%) 30nm150nmR960A grade 99.7% 800 mesh 800 mesh 1250 mesh 121710113131 German Wacker Company self-made American DuPont Company Liuzhou Zinc Products Company Guoli Superfine Powder Company Guoli Superfine Powder Company Guoli Superfine Powder Company Dispersant defoamer slip agent leveling agent thickener anti-settling agent plasticizer curing agent butyl acetate Efka Polymer452Airex970Ceraflour960Efka- ^{30RILANIT® 45902EDENOL®} 344KC solvent 10.20.10.20.150.150.2415 Netherlands EFKA Company Germany Tego Company Germany BYK Chemie Company Netherlands EFKA Company Germany Henkel Company Taiwan Deqian Trading Company Germany Henkel Company Taiwan Deqian Trading Company Shanghai Dongyan Chemical Company

The performance tests of the novel heat-insulating coatings prepared in Examples 1-4 are listed in Table 5.

Table 5. Performance test of new thermal insulation coating Test items technical indicators standard test State solid content in the container % Surface dry time/h hard drying time/h viscosity (coating -4 cups/23°C)/s adhesion level water resistance 96h acid resistance 24h 5% hydrochloric acid alkali resistance 48h 10% NaOH powdering/grade ( 500h) discoloration/grade (500h) scrub resistance/second UV resistance 2000h artificial accelerated aging 2000h thermal conductivity w/(m·k) contact angle solar reflectance Uniform and no hard lumps ≥65≤0.5≤2490～1201 The paint film is intact and unchanged The paint film is intact and unchanged The paint film is intact and unchanged Level 0 Grade 0≥10000 The paint film is intact and unchanged The paint film is intact and unchanged 0.048≥105°≥0.92 Visual inspection GB1725-79(89)GB1728-79(89)GB1728-79(89)GB1725-99GB1720-79(89) Actual measurement GB1763-79(89)GB1865-79(89) External inspection External inspection External inspection Actual measurement GB1865- 80 (89) GB10294 actual measurement outsourced detection

Embodiment 5, silver-gray polyester coil topcoat novel heat-insulating coating

The formulation of the novel heat-insulating coating for the silver-gray polyester coil topcoat provided by the present invention is listed in Table 6.

Table 6. Formula of new heat-insulating coating for silver-gray polyester coil topcoat materials Specification Dosage/Kg supplier Polyester Resin Nanoporous SiO ₂ Nano Iron Yellow Titanium White Carbon Black Iron Oxide Yellow Phthalocyanine Blue Oxide Zinc Sericite Wollastonite Light Calcium Carbonate Dispersant Curing agent anti-settling agent plasticizer cyclohexanone aromatic hydrocarbon solvent No. 100 ethylene glycol ethyl ether acetate ^Desmophen® 650 (solid content 65%) 400nm30nmR960N115S313R1216-01BGSA grade 99.7% 800 mesh 800 mesh 1250 mesh Efka-766Airex970Ceraflour960AMABYK ^- 354RILANIT ® 451051JTY201PEDENOL ^® 344 solvent solvent 507.54230.520.143220.80.20.10.10.20.21.150.250.28.5512 German Bayer Company self-made American DuPont Suzhou Baohua Carbon Black Company Shanghai Yipin Pigment Company Shenzhen Huasu Chemical Company Liuzhou Zinc Products Company Guoli Superfine Powder Company Guoli Superfine Powder Company Guoli Superfine Powder Company Netherlands EFKA Company Germany Tego Company Germany BYK Chemie Company Taiwan Sanhua Industrial Company Germany BYK Chemie Company Germany Henkel Company KING INDUSTRIES Company Jiangxi Taixing Coating Auxiliary Factory Taiwan Deqian Trading Company Germany Henkel Company Ruian Qizheng Chemical Company Yangzhou Hualun Chemical Company Jiangsu Yixing Assistant Pharmacy

Embodiment 6, novel heat-insulating coating of amino resin cured polyester coil

The formulation of the novel heat-insulating coating for amino resin-cured polyester coils provided by the present invention is listed in Table 7.

Table 7. Formula of new thermal insulation coating for amino resin cured polyester coil materials Specification Dosage/Kg supplier Polyester resin, amino resin, nano-porous SiO ₂ , nano-iron yellow titanium dioxide, zinc oxide, light calcium carbonate, sericite dispersant, defoamer, acid catalyst, leveling agent, thickener, slip agent, anti-sedimentation agent, plasticizer, No. 200 paint solvent oil B Glycol ether acetate aromatic hydrocarbon solvent No. 100 Desmophen ^® 1100 (solid content 100%) Resimene 747 (solid content > 98%) 550nm 500nm R960A grade 99.7% 800 mesh 800 mesh Disperbyk-130Airex970K-CURE1040Efka-30DEHYSOL ® RAcumist B ^- 6902EDENOL ^® 344 solvent solvent 605115223440.80.20.30.20.20.10.150.1581210 German Bayer Company, American Solutia.Inc. Company self-made self-made American DuPont Company Liuzhou Zinc Products Company Guoli Superfine Powder Company Guoli Superfine Powder Company German BYK Chemie Company German Tego Company KIMG INDUSTRIES Company Netherlands EFKA Company Germany Henkel Company Allied Signal Company Taiwan Deqian Trading Company Germany Henkel Company Maoming City Yongjia Chemical Company Jiangsu Yixing Auxiliary Factory Yangzhou Hualun Chemical Company

The performance tests of the new coil heat-insulating coatings for color steel plates prepared in Examples 5 and 6 are listed in Table 8.

Table 8. Performance test of new thermal insulation coating Test items technical indicators standard test Fineness/μm Viscosity (coating-4 cups/23℃)/s solid content/% curing performance/s(℃)60°gloss/% T-bend impact resistance/Kg.cm adhesion/grade pencil hardness resistance to methyl ethyl ketone/time Resistance to salt spray (2000h) resistance to heat and humidity (2000h) resistance to ultraviolet light (2000h) artificial accelerated aging (2000h) thermal conductivity w/(m k) contact angle solar heat reflectance ≤2080～110≥6030～60(224～232)(PMT)≥85≤3T≥800≥H≥120 The paint film is intact and unchanged The paint film is intact and unchanged The paint film is intact and unchanged The paint film is intact and unchanged 0.048≥105° ≥0.92 GB1724-79(89)GB1725-99GB1725-79(89) passed the solvent resistance GB9754-88GB/T13448-92ASTM2794-93GB/T1732-93GB/T6739-96ASTMD5402GB1771-91GB/T1740-79(89) measured GB1865-80(89) GB10294 actual test outsourced testing

Embodiment 7, performance experiment 1

When the thermal insulation performance of the novel thermal insulation coating provided by the invention is tested, it is placed outdoors with little wind, clear weather and sufficient sunlight. This method has a wide range of applications and can be tested on small or large experimental samples.

Get three thin iron sheets, the size of which is 150mm * 150mm, wherein the surface of plate II and plate III are respectively coated with commercially available green shield solar heat reflective coating LD-RFS and prepared in Example 4 of the present invention with a thickness of 40 μm. New heat-insulating paint, another board I is not painted with any paint as a control. The test was carried out outdoors in a sunny place. The surface temperature of the iron sheet was measured with an infrared thermometer, and the air temperature was measured with a J207-1-100±0.1°C thermometer. The test data are listed in Table 9.

Table 9. Test data of thin iron sheet

2004-07-15 sunny, wind speed ≤ grade 2 time Air temperature (℃) Iron sheet I(℃) Iron sheet II(℃) Iron sheet III(℃) 10:0011:0012:0013:0014:0015:0016:00 27.630.533.436.137.234.431.6 3741.344.850.051.647.342.6 31.434.737.141.242.338.534.2 29.032.335.739.640.137.032.6

It can be seen that, compared with the plate I without any paint, the plate II and plate III of the new thermal insulation paint prepared by the commercially available Green Shield solar heat reflective paint LD-RFS and the embodiment of the present invention 4 are painted The cooling effect of the iron sheet board is obvious, especially the board III coated with the novel heat-insulating coating of the present invention, its heat-insulating effect is particularly obvious.

And because the iron plate used in the test is small, there are many influencing factors, and the plate dissipates heat quickly, so the temperature difference is not very large. If the influencing factors are reduced and a closed container with a large surface area is used for testing, the novel heat-insulating coating provided by the invention can also obtain a more obvious cooling effect, and the larger the area in contact with the sun, the better the cooling effect.

Embodiment 8, performance experiment 2

Paint the 200L gasoline drum with the new heat-insulating paint prepared in Example 6 of the present invention under the condition of an empty drum, and number it as drum A; use the commercially available Green Shield solar heat reflective coating LD-RFS to paint it, and number it as drum B. The temperature at the top and the side of the barrel at a distance of 80cm from the bottom is tested with an infrared thermometer. All test surfaces are facing the light, and the air temperature and the inside of the barrel are tested with a J207-1-100±0.1°C thermometer. The test results are listed in Table 10.

Table 10. Gasoline tank test data

2004-07-28 sunny wind speed salt ≤ grade 2 test time test item 10:00 A B 11:00 A B 12:00 A B 13:00 A B 14:00 A B 15:00 A B 16:00 A B air temperature 28.8 30.5 32.2 35.0 36.2 34.4 33.0 Side °C 30.1 32.1 33.1 35.4 35.3 38.7 38.8 43.1 39.8 44.5 38.0 42.1 36.7 39.8 Temperature difference °C 2.0 2.3 3.4 4.3 4.7 4.1 3.1 top °C 31.5 34.9 35.6 39.0 38.9 42.6 41.6 46.1 42.7 47.9 42.0 47.0 40.2 44.4 Temperature difference °C 3.4 3.4 3.7 4.5 5.2 5.0 4.2 Internal °C 29.6 30.4 31.8 33.1 34.6 36.7 36.9 39.6 39.0 42.5 36.8 39.9 35.6 37.9 Temperature difference °C 0.8 1.3 2.1 2.7 3.5 3.1 2.3

It can be seen that, compared with the second bucket that has been painted with the commercially available green shield solar heat reflective paint LD-RFS, the cooling effect of the first bucket that has been painted with the novel heat-insulating coating prepared in Example 6 of the present invention is more remarkable, And the higher the direct sunlight temperature, the more obvious the cooling.

Embodiment 9, performance experiment 3

The 250m ³ empty stainless steel wine tanks of a certain winery were painted with the heat-insulating paint prepared by Example 2 of the present invention, numbered tank A; those painted with silver powder, numbered tank B. The temperature measurement is carried out under the condition of an empty tank, and all test surfaces are facing the light; the surface temperature of the tank is tested by an infrared thermometer, and the internal temperature of the tank is tested by a J207-1-100±0.1°C thermometer. The test results are listed in Table 11.

Table 11, 250m ³ stainless steel empty wine tank test data

2004-08-03 sunny wind speed ≤ grade 2 test time test item 9:00 10:00 11:00 12:00 13:00 14:00 15:00 A tank B tank A tank B tank A tank B tank A tank B tank A tank B tank A tank B tank A tank B tank Air temperature (℃) 31 32 33 33 34 34 34 humidity(%) 63 Tank side (℃) 34.2 45.3 35.4 46.7 37 47.1 384 6.8 38.6 44.5 39 43.9 40.5 44 Temperature difference(°C) 11.1 11.3 10.1 8.8 5.9 4.9 3.5 Tank top surface (℃) 37.1 54.2 38.5 55.6 41.7 59.3 42.3 61.9 43.7 66.2 43.2 68.3 44 66.6 Temperature difference(°C) 15.3 17.1 17.6 19.6 22.5 25.1 22.6 1m from the inside of the tank to the top of the tank (°C) 33.5 42.6 35.4 45.8 35.7 49.4 36.4 53.1 37.2 53.8 37.4 55.2 37.5 55 Temperature difference (°C) 5m from the inside of the tank to the top of the tank (°C) 9.132.8 41.2 10.434.6 43.4 13.734.9 44.2 16.735.5 46.4 16.636.4 48.7 17.836.8 50 17.537 51.3 Temperature difference(°C) 8.4 8.8 9.3 10.9 12.3 13.2 14.3 8m from the inside of the tank to the top of the tank (°C) 32.6 40.4 34.2 41.8 34.6 42.4 35 44.1 35.9 44.5 36 45.1 36.3 46.8 Temperature difference(°C) 7.8 7.6 7.8 9.1 8.6 9.1 10.5

The test data show that, compared with the second tank painted with silver powder paint, the external and internal temperature drop of tank A coated with the white acrylic resin novel storage tank heat-insulating paint prepared in Example 2 of the present invention is more obvious, and it can completely replace The existing method of coating silver paint and adding spray water to cool down has a long service life and greatly reduces the cost.

Claims (10)

1, a kind of thermal insulating coating, its composition comprises:

Film forming matter 15～65 weight parts;

Nanoporous SiO ₂3～20 weight parts;

Nano iron oxide yellow 1～12 weight part;

Pigment 5～30 weight parts;

Filler 3～22 weight parts;

Auxiliary agent 0.4～8 weight part;

Solvent 6～30 weight parts;

Described film forming matter comprises vibrin, Synolac, Resins, epoxy, acrylic resin, aminoresin, resol, polyvinyl chloride (PVC) RESINS, organosilicon modified polyester resin, organosilicon modified crylic acid resin, silicone resin, fluorocarbon resin;

Described filler is to be selected from zinc oxide, barium sulfate, silicon-dioxide, talcum powder, sericite, light calcium carbonate, the wollastonite powder one or more;

Described auxiliary agent comprises one or more in dispersion agent, defoamer, flow agent, acid catalyst, anti-settling agent, softening agent, slip(ping)agent, thickening material, the solidifying agent;

Above-mentioned component is mixed, after disperseing, grind, mixing colours, promptly obtain thermal insulating coating of the present invention.

2, thermal insulating coating as claimed in claim 1 is characterized in that: described nanoporous SiO ₂Particle diameter be 10～600nm.

3, thermal insulating coating as claimed in claim 1 or 2 is characterized in that: described nanoporous SiO ₂For making: in there-necked flask, add 100ml ethanol by following method; adding 0.2～1.2ml concentration under stirring is the salt solution of 0.1M and the ethanolic soln of 0.1M polymkeric substance, continues under the room temperature to stir, and logical nitrogen is protected; the positive tetraethyl orthosilicate that adds 0.8～4.2ml again; fully stir 1～5h, leave standstill, use washing with alcohol after the centrifugation; repeatedly for several times; at 230～460 ℃ of following sintering, sieve at last, promptly obtain nanoporous SiO ₂

Wherein, described salt comprises NaCl, NaI, KBr, KCl, KI, KNO ₃, LiCl, CsCl;

Described polymkeric substance is R _aO (CH ₂CH ₂O) _bH, R _aBe C ₆～C ₁₈Alkyl, b=3～15; Or HO (CH ₂CH ₂O) x (CH (CH ₃) CH ₂O) y (CH ₂CH ₂O) zH, x, y, z=1～65, and molar mass is 1650～2900g/mol.

4, thermal insulating coating as claimed in claim 1 is characterized in that: the particle diameter of described nano iron oxide yellow is 10～500nm.

5, thermal insulating coating as claimed in claim 1 is characterized in that: described pigment is to be selected from rutile titanium white, phthalocyanine blue, phthalocyanine green, carbon black, red iron oxide, zinc-chrome yellow, medium chrome yellow medium yellow, Lemon chrome yellow, deep chrome yellow, chrome green, the molybdenum red one or more.

6, thermal insulating coating as claimed in claim 1 is characterized in that: described dispersion agent is Efka-766, the EfkaPolymer452 of BYK-110, BYK-P104, the Disperbyk-130 of German BYK Chemie company, Dutch EFKA company;

Described defoamer is the Efka-20 of BYK-065, the BYK-052 of German BYK Chemie company, Dutch EFKA company; The Airex970 of Germany Tego company;

Described flow agent is Efka-30, the Efka-772 of BYK-354, the BYK-300 of German BYK Chemie company, Dutch EFKA company;

Described acid catalyst be German BYK Chemie company BYK-Catalyst450, NACURE155,1051, the K-CURE1040 of KIMGINDUSTRIES company;

Described anti-settling agent is the BORCHIGEL THIXO Z of the anti-settling agent 902,201P of the Taiwan modest trading company of moral, German Bayer company;

Described softening agent is the EDENOL of the plasticizer DOP, tributyl phosphate of Shanghai solvent factory, German Henkel company ^344;

Described slip(ping)agent is 840SL, the AMA that industrial corporation is changed in Taiwan three; The A-C6 of Allied Signal company, Acumist B-6;

Described thickening material is the DEHYSOL of German Henkel company ^R, RILANIT ^45;

Described solidifying agent is KB, KC, the DBTDL curing catalyst of the Taiwan modest trading company of moral, the JTY curing catalyst of Taixing, Jiangxi coatings additive(s) factory.

7, thermal insulating coating as claimed in claim 1 is characterized in that: described solvent is selected from one or more in ethyl acetate, butylacetate, ethylene glycol ether acetate, dimethylbenzene, butyl glycol ether, butanols, methyl iso-butyl ketone (MIBK), propylene glycol methyl ether acetate, sherwood oil, No. 200 varnish makers' and painters' naphtha, pimelinketone, No. 100, aromatic solvent, No. 150, aromatic solvent, No. 200, aromatic solvent, the mixed dibasic acid diester.

8, thermal insulating coating as claimed in claim 1 is characterized in that, its composition comprises:

Film forming matter 15～50 weight parts;

Nanoporous SiO ₂4～20 weight parts;

Nano iron oxide yellow 1～9 weight part;

Pigment 5～30 weight parts;

Filler 6～22 weight parts;

Auxiliary agent 0.4～6 weight part;

Solvent 6～25 weight parts.

9, thermal insulating coating as claimed in claim 1 is characterized in that, its composition comprises:

Film forming matter 20～65 weight parts;

Nanoporous SiO ₂3～18 weight parts;

Nano iron oxide yellow 3～12 weight parts;

Pigment 5～30 weight parts;

Filler 3～20 weight parts;

Auxiliary agent 0.6～8 weight part;

Solvent 10～30 weight parts.

10, claim 1,8 or 9 described thermal insulating coatings variously need to lower the temperature, heat insulation device or architectural application.