CN101935487A - Automatic temperature control infrared radiation coating and application thereof - Google Patents
Automatic temperature control infrared radiation coating and application thereof Download PDFInfo
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- CN101935487A CN101935487A CN 201010281161 CN201010281161A CN101935487A CN 101935487 A CN101935487 A CN 101935487A CN 201010281161 CN201010281161 CN 201010281161 CN 201010281161 A CN201010281161 A CN 201010281161A CN 101935487 A CN101935487 A CN 101935487A
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- 235000021122 unsaturated fatty acids Nutrition 0.000 description 1
- 238000009736 wetting Methods 0.000 description 1
- 230000037303 wrinkles Effects 0.000 description 1
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Abstract
The invention discloses an automatic temperature control infrared radiation coating, which comprises the following components in percentage by weight: 50.0 to 70.0 percent of main agent, 20.0 to 40.0 percent of carrier adhesive and 1.0 to 10.0 percent of nano oxide additive. After being coated on the surface of a metal product, the automatic temperature control infrared radiation coating can effectively form a stable protective layer on the surface of the metal product, effectively prevent the metal surface from being oxidized, quickly transfer the absorbed heat to the atmosphere and effectively prevent over high temperature of the metal product, and meanwhile can effectively prevent the dust in the air from being deposited on the surface of the metal product due to the action of static electricity so as to keep the metal product clean. In addition, because each component contains low toxic substance, the coating is environment-friendly; and the coating can be used in the fields of outdoor metal member surface treatment, high-power LED road lamps, refrigerator compressors, die casting machines, spark machines, numerical control machine processing centers, air compressors, electric motors and the like.
Description
Technical field
Patent of the present invention relates to the metallic paint field, particularly a kind of temperature automatically controlled infrared radiation coating and application thereof.
Background technology
Present existing high-power LED street lamp all adopts aluminum alloy materials basically; do not take any protection and decorative painting as yet; more adopt functional applications such as heat radiation is temperature automatically controlled and antistatic; high-power LED street lamp is the new high-tech product that just occurs recent years; be faced with very arduous environmental issue; heat transfer, heat conduction and heat dissipation problem, and be faced with new protection against corrosion and antistatic requirement.
Commercially available scarcely environmental protection of metal or alloy material antiseptic antirust decorative coating at present belongs to solvent based coating, and its solvent generally all is that with the thinner as pigment, paint etc., content is higher based on benzene class organic solvents such as dimethylbenzene.Dimethylbenzene is a kind of colourless transparent liquid, and is water insoluble, is dissolved in ethanol and ether, toxic, volatile, but polluted air and contaminate environment, serious harm human body health.Simultaneously, this class coating products overwhelming majority contains plumbous system and chromate pigments, also can cause environmental pollution and harm humans health to environment.In recent years, occurred the anti-corrosive antirusting paint of some water-baseds on the market, mainly be divided into two major types: be i.e. latex type and water-soluble type.But because the former poor stability, rustless property is undesirable, from the requirement of the actual expectation of people bigger gap is arranged still; The latter is the antiseptic and rustproof paint of drying-type, its drying condition generally all 140 ℃ * more than 30 minutes, energy consumption is higher, also needs special-purpose drying plant, its rust-proof effect is also undesirable, its salt mist experiment seldom has and reaches 300 hours product.Therefore, now on the market, still be main flow with traditional rust-inhibiting paint product, poor-performing, price are also cheaper, and environmental pollution is also serious, though product innovation in recent years reduces and has improved the pollution to environment relatively, but owing to technical reason, the stability and the performances such as salt spray resistance, corrosion resistance of its product are still unsatisfactory, do not meet at present in the world the development trend to antiseptic and rustproof product requirement environmental protection and health performance excellence.
High-power LED street lamp is the market new lover who grows up on the world market in recent years, belongs to green semiconductor lighting industry, and it has energy-saving and cost-reducing, safety and environmental protection, brightness is big, the life-span is long, photochromic soft many excellent characteristics such as comfortable.Along with the aggravation of world energy sources crisis, each state is all in the way of seeking to solve energy dilemma, and an approach is to seek the utilization of new and renewable sources of energy; Another is to seek new power-saving technology.Save energy is the important component part that china natural resources is saved fundamental state policy, also is a long-range strategy task of Chinese national economy and social sustainable development.Semiconductor lighting by universally acknowledged be the important channel of energy-saving and environmental protection, be one of the high-tech sector of tool development prospect of 21 century.LED possess power saving, environmental protection do not have mercury, the little response of volume fast, high shatter-proof, can be applicable to low temperature environment, light source have directivity, cause the light evil less and develop the color, advantage such as colour gamut is enriched.China's street lighting electricity consumption replaces as adopting great power LED, and comparable original high-power traditional lighting street lamp can be saved 1/3 electric consumption on lighting, and energy-saving effect is very obvious.And in the electrical production of China about 80% for thermal power generation, need burning a large amount of raw coal and oil, produce a large amount of dust and CO
2, SO
2Deng gas, environmental pollution is serious, and the application of high-power LED street lamp product can reduce electricity usage, significantly reduces emission of carbon-dioxide and environmental pollution, can play real energy-saving, emission-reducing, environment friendly effect.Yet the high-power LED street lamp quality that occurs on the market is uneven, lack the unified world and home products standard again, thereby the situation that dragons and fishes jumbled together appears, technical products that market demand is new such as high-power LED street lamp solve problems such as the heat radiation of high-power LED street lamp and antistatic, protection against corrosion with temperature automatically controlled infrared radiation coating.
Summary of the invention
The objective of the invention is to overcome the above-mentioned deficiency of prior art; a kind of temperature automatically controlled infrared radiation coating is provided; this coating can effectively form stable protective layer on the metal products surface; prevent that the metallic surface is oxidized; the heat that is absorbed can be transmitted in atmosphere rapidly; prevented that effectively the metal products temperature is too high, can also effectively prevent koniology because of electrostatic interaction at the metal products surface deposition, thereby keep the cleaning of metal products.
And, this temperature automatically controlled infrared radiation coating metal component surface processing out of doors, high-power LED street lamp, compressor for refrigeration, pressure die-casting machine, spark machine, numerically-controlled machine machining center, air compressor, electro-motor Application for Field.
In order to realize the foregoing invention purpose, technical scheme of the present invention is as follows:
A kind of temperature automatically controlled infrared radiation coating comprises following weight percent component:
Host 50.0~70.0%, carrier caking agent 20.0~40.0%, nano-oxide additive 1.0~10.0%.
And, the metal component surface processing out of doors of above-mentioned temperature automatically controlled infrared radiation coating, high-power LED street lamp, compressor for refrigeration, pressure die-casting machine, spark machine, CNC machining center, air compressor, electro-motor Application for Field.
This temperature automatically controlled infrared radiation coating is because its special formulation; after it is coated in the metal products surface; can effectively form stable protective layer on the metal products surface; can prevent effectively that the metallic surface is oxidized; the heat that is absorbed can be transmitted in atmosphere rapidly, prevented that effectively the metal products temperature is too high, simultaneously; can also effectively prevent koniology because of electrostatic interaction at the metal products surface deposition, thereby keep the cleaning of metal products.In addition, each component toxic substances is low in this coating, environmental protection, and in its prescription, the existence of host component effectively forms sealing coat in the metallic surface, the metallic surface is protected, and prevents to combine the generation corrosion with airborne oxygen, damages the metallic surface; The cross-linking density of this coating that the carrier caking agent guarantees, toughness and hardness, scratch resistance life-span and the drying property of paint have improved the anti-corrosion performance of coating; The nano-oxide additive has electroconductibility and surface enrichment effect preferably, nano particle is minimum, specific surface area is big, its compactness extent is quite high, effectively increase ADHESION OF PAINTS power and bonding force, improved antistatic property and salt spray resistance, protection against corrosion and the antirust ability of coating, the ir radiation ability of having given coating is radiated to heat in the atmosphere rapidly from inside to outside.Because the above-mentioned useful performance of this coating, this coating can be used in the fields such as outdoor metal component surface processing, high-power LED street lamp, compressor for refrigeration, pressure die-casting machine, spark machine, numerically-controlled machine machining center, air compressor, electro-motor.
Embodiment
In order to make the technical problem to be solved in the present invention, technical scheme and beneficial effect clearer,, the present invention is further elaborated below in conjunction with embodiment.Should be appreciated that specific embodiment described herein only in order to explanation the present invention, and be not used in qualification the present invention.
The embodiment of the invention provides a kind of temperature automatically controlled infrared radiation coating, comprises following weight percent component:
Host 50.0~70.0%, carrier caking agent 20.0~40.0%, nano-oxide additive 1.0~10.0%.
After above-mentioned temperature automatically controlled infrared radiation coating is coated in the metal products surface, can effectively form stable protective layer, prevent that the metallic surface is oxidized, the heat that is absorbed is transmitted in atmosphere rapidly, prevent that the metal products temperature is too high on the metal products surface.Simultaneously, can also effectively prevent koniology because of electrostatic interaction at the metal products surface deposition, thereby keep the cleaning of metal products.In addition, each component toxic substances is low in this coating, environmental protection, and in its prescription, the existence of host component effectively forms sealing coat in the metallic surface, the metallic surface is protected, and prevents to combine the generation corrosion with airborne oxygen, damages the metallic surface; The cross-linking density of this coating that the carrier caking agent guarantees, toughness and hardness, scratch resistance life-span and the drying property of paint have improved the anti-corrosion performance of coating; The nano-oxide additive has electroconductibility and surface enrichment effect preferably, nano particle is minimum, specific surface area is big, its compactness extent is quite high, effectively increase ADHESION OF PAINTS power and bonding force, improved antistatic property and salt spray resistance, protection against corrosion and the antirust ability of coating, the ir radiation ability of having given coating is radiated to heat in the atmosphere rapidly from inside to outside.
Further, the carrier adhesive component plays the cross-linking density that guarantees this coating, toughness and hardness, scratch resistance life-span and the drying property of paint in the above-mentioned temperature automatically controlled infrared radiation coating, improved the effect of the anti-corrosion performance of coating, the performance quality of carrier caking agent can influence the performance of coating products.Therefore, it preferably comprises following weight percent component: 75% aromatic isocyanate, 20.0~35%, 75% aliphatic isocyanates 30~40%, dimethylbenzene 5~10%, N-BUTYL ACETATE propyl alcohol 10.0~20%, 2-butanols 7~15%, acetone 0~10%.
Further, nano-oxide binder component nano-oxide additive is an important component of the present invention in the above-mentioned temperature automatically controlled infrared radiation coating, it has electroconductibility and surface enrichment effect preferably, its particle diameter is a nano level, specific surface area is big, its compactness extent is quite high, effectively increase ADHESION OF PAINTS power and bonding force, antistatic property and salt spray resistance, protection against corrosion and the antirust ability of coating have been improved, given the ir radiation ability of coating, heat has been radiated in the atmosphere rapidly from inside to outside.Compare with conventional micropowder, also have the excellent properties of aspects such as a series of optics, electricity, magnetics, mechanics, chemical rust resistance and corrosion resistance.This nano-oxide additive is preferably used at least two kinds of components in nano tin dioxide, nano indium oxide, nano oxidized antimony, nanometer iron oxide red, nano-manganese dioxide, nano-aluminium oxide, nano magnesia, nano zine oxide, nano silicon, the nano titanium oxide.
Further, above-mentioned host preferably comprises following weight percent component: composite resin 30.0~60%, ir radiation powdery pulp 20.0~40.0%, auxiliary agent 10.0~30.0%.
Particularly, composite resin preferably comprises synthetic fatty acid resin and Hydroxylated acrylic resin in the above-mentioned host.The weight ratio of synthetic fat acid resin and Hydroxylated acrylic resin is 4~6: 6~4 in this composite resin.Wherein, the acid number of Hydroxylated acrylic resin is less than 10mgKOH/g, and obtain manner is commercially available, as buying from German BYK company, Aksu company and domestic resin company; Described synthetic fat acid resin is the fatty acid modified urethane that a kind of medium-oil-length unsaturated fatty acids modified polyurethane and Acrylic Acid Monomer prepare through graft copolymerization, its acid number is less than 10mg KOH/g, and its acquisition approach can be made lacquer factory, sino-america joint-venture Shanghai Ai Lijin coating company limited, the precious chemical plant of Yixing City China, Sanmu Group Corp, Jiangsu, German BYK company from make lacquer factory, Shandong southern Shandong as China's Zibo City's Boshan, Aksu company approach obtains.In addition, in order to obtain evenly to organize the composite resin of phase, when the composite resin of preparation, can also suitably add a small amount of solubility promoter.
Concrete, auxiliary agent plays an important role to performance and the quality that host and temperature automatically controlled infrared radiation coating are coated with in the above-mentioned host, and it preferably includes in the compositions such as dispersion agent, solubility promoter, coupling agent, silicone antifoam agent, organosilicon flow agent, softening agent or siccative one or more.Wherein, dispersion agent mainly acts on effectively with Hydroxylated acrylic resin and synthetic fatty acid resin dispersion; It is the bonding force that strengthens between ir radiation powder body material and Hydroxylated acrylic resin and the synthetic fat acid resin that coupling agent mainly acts on; It is effectively to eliminate the foam that causes because of stirring in the blending process that silicone antifoam agent mainly acts on, and improves mixing effect and construction quality; It is the film forming planeness that promotes resin that the organosilicon flow agent mainly acts on; It is to promote dissolving resin that solubility promoter mainly acts on, and improves its solute effect and film-forming properties; It is auxiliary its film strength that improves that softening agent mainly acts on; It is the rate of drying that promotes its film that siccative mainly acts on, and increases work efficiency.Above-mentioned each component that auxiliary agent comprised is many more, between each component and and other components of being comprised of present embodiment coating between synergy good more, make that this coating end properties is excellent more.When auxiliary agent comprised dispersion agent, solubility promoter, coupling agent, silicone antifoam agent, organosilicon flow agent, softening agent and siccative component simultaneously, the percentage composition of the relative auxiliary agent gross weight of each component was preferably respectively: dispersion agent 40%, coupling agent 8%, silicone antifoam agent 10.5%, organosilicon flow agent 13.1%, solubility promoter 26.3%, softening agent 1.6%, siccative 1.05%.
Concrete, above-mentioned host intermediate infrared radiation powdery pulp preferably comprises synthetic fatty acid resin, dispersing auxiliary, ir radiation powder and solvent; Wherein, the per-cent that synthetic fat acid resin, dispersing auxiliary, ir radiation powder and solvent composition account for ir radiation powdery pulp weight is preferably respectively: synthetic fat acid resin 40.0~60.0%, dispersing auxiliary 5.0~15.0%, ir radiation powder 15.0~40.0%, solvent 10.0~30.0% (wherein contain benzene solvent and account for 1.0~5.0%); Can find out that thus ir radiation powder slurry is selected also to have abandoned poisonous and hazardous compound at content and proportioning, has more effectively ensured the people's of products production person, user and surrounding environment health, meets environment protection requirement.
Further, middle synthetic fat acid resin described in synthetic fatty acid resin Composition such as the above-mentioned composite resin in the above-mentioned ir radiation powdery pulp.
Further, above-mentioned ir radiation powdery pulp intermediate infrared radiation powder component is preferably the mixture that in non-transition metal oxides, copper powder, metallic aluminium powder, metal zinc, boride, semiconductor material, Mo Laishi, trichroite, zircon, talcum powder, the beautiful mica at least two kinds and transition metal oxide are formed.Wherein, transition metal oxide such as mixed crystal phase ferric chromate, ferric oxide, Manganse Dioxide, cobalt oxide, cupric oxide, chromium sesquioxide, nickel oxide, molybdenum sesquioxide, zirconium dioxide etc., at least two kinds mixture in the preferred aforementioned cited transition metal oxide of this transition metal oxide.Non-transition metal oxides such as aluminium sesquioxide, magnesium oxide, boron nitride, aluminium nitride, silicon carbide or copper powder, metallic aluminium powder, metal zinc etc.Above-mentioned ir radiation powder component is the mixture of mixed crystal phase ferric chromate, ferric oxide, Manganse Dioxide, cobalt oxide, cupric oxide, chromium sesquioxide, nickel oxide, zirconium dioxide, boron nitride, aluminium nitride, silicon carbide, Mo Laishi, trichroite, zircon more preferably.
Further, solvent composition is preferably any two or more composite forming in ethylene glycol ether acetate, N-BUTYL ACETATE, isoamyl acetate or the vinyl acetic monomer in the above-mentioned ir radiation powdery pulp.This solvent composition does not contain the poisonous and hazardous organic solvents of aromatics such as the toluene, dimethylbenzene of any high volatility, meets environment protection requirement.
Further, dispersing auxiliary described in the above-mentioned ir radiation powdery pulp plays an important role to performance and the quality that ir radiation powdery pulp and temperature automatically controlled infrared radiation coating are coated with, similar with the promoter effect in the above-mentioned host, it preferably comprises in dispersion agent, coupling agent, silicone antifoam agent, organosilicon flow agent, solubility promoter, softening agent and the siccative one or more.Above-mentioned each component that this dispersing auxiliary comprised is many more, between each component and and other components of being comprised of present embodiment coating between synergy good more, make that this coating end properties is excellent more.When auxiliary agent comprised dispersion agent, solubility promoter, coupling agent, silicone antifoam agent, organosilicon flow agent, softening agent and siccative component simultaneously, the percentage composition of the relative auxiliary agent gross weight of each component was preferably respectively: dispersion agent 40%, coupling agent 8%, silicone antifoam agent 10.5%, organosilicon flow agent 13.1%, solubility promoter 26.3%, softening agent 1.6%, siccative 1.05%.
The dispersion agent that comprises in the dispersing auxiliary component of above-mentioned ir radiation powdery pulp can make agglomerating nano-oxide separate reunion, obtains monodispersed primary particle again, improves the use properties of coating.Because the nano-oxide powder particle diameter is little, be very easy to reunite, directly add and be difficult in the coating scatter, thereby influence the performance of performance.Described dispersion agent is preferably at least a in HK-03 organic dispersing agent, CH series hyper-dispersant, SN5040 dispersion agent or the polyacrylic acid hydramine salt dispersion agent.
The coupling agent that comprises in the dispersing auxiliary component of above-mentioned ir radiation powdery pulp can make this coating have the good penetration wetting property, coupling, dispersive ability is strong, can improve this coating and organic consistency and water resistance, simultaneously in cross-linking process, resistance of oxidation significantly strengthens, the long-term placement also can not caused the base-material xanthochromia, excellent bounding force and weather resistance can be provided, especially can strengthen the bonding force and the intensity of above-mentioned ir radiation powder and composite resin in the present embodiment, it is preferably tetraethoxy, at least a in aluminic acid Virahol ester or the titanate coupling agent.Wherein, titanate coupling agent can preferably be used among tetrabutyl titanate, titanate coupling agent TC-F, titanate coupling agent TC-2, titanate coupling agent TC-3, titanate coupling agent TC-27, titanate coupling agent TC-114, titanate coupling agent TC-Wt, titanate coupling agent G-2, titanate coupling agent G-6, titanate coupling agent TA-9-2, titanate coupling agent TA-13, titanate coupling agent TA-361, the titanate coupling agent TD-5-1 at least a arbitrarily.
The defoamer that comprises in the dispersing auxiliary component of above-mentioned ir radiation powdery pulp can help exhaust and the froth breaking of coating in whipping process, prevents bubble and foamy generation in Paint Production and the storage process, plays and presses down bubble and deposit stable effect.The adding of component of antifoam agent can effectively improve coating surface smooth finish, intermiscibility, dispersiveness and over-all properties.Component of antifoam agent is preferably used silicone antifoam agent, it is that polysiloxane with modification is a main component, the biologically inert defoamer that adopts special warfare to make has very strong press down bubble ability and good broken bubble effect, and antifoaming speed is fast, suds suppressing properties is excellent, the efficient height, consumption is low, and is nontoxic, do not have corrosion, do not have bad side effect, but also can be used as auxiliary agent or subsidiary material and other material shared or improve other materials processing performance.This defoamer such as preferred silicone antifoam agent can be selected from the product that German BYK, Dutch EFKA, Aksu company and some domestic manufacturers produce.
The flow agent that comprises in the dispersing auxiliary component that comprises in the above-mentioned ir radiation powdery pulp is a kind of coatings additive(s), it can impel coating in the drying and forming-film process, form one smooth, smooth, film uniformly, after can avoiding the coating brushing, owing to tension gradient, wrinkle and shrinkage cavity phenomenon appear in solvent evaporation, the different paint films that cause with the wetness degree of metallic surface of polymkeric substance, influence the rustless property of coating.Present embodiment is preferably used the organosilicon flow agent, as phenylbenzene polysiloxane, methyl phenyl silicone, organic radical modified siloxane, fluorinated siloxane etc.This flow agent such as preferred organosilicon flow agent can be selected from the product that German BYK, Dutch EFKA, Aksu company and some domestic manufacturers produce.
The softening agent that comprises in the dispersing auxiliary component that comprises in the above-mentioned ir radiation powdery pulp can improve the elasticity and the toughness of coating induration, and makes coating products and bounding force is preferably arranged between the paint metals surface.The present embodiment softening agent is selected the combination of any one or both in dibutyl phthalate, the dioctyl phthalate (DOP) for use.
The inhibiter that comprises in the dispersing auxiliary component that comprises in the above-mentioned ir radiation powdery pulp adds can make coating form oxide film or indissoluble material in the metallic surface, has hindered oxygenant and has got electronics, with the corrosion speed of the metallic surface of slowing down.At least a in the preferred barium mahogany sulfonate of inhibiter, sad dicyclohexyl amine, phenylformic acid monoethanolamine, the 124 Triazole etc.
The siccative that comprises in the dispersing auxiliary component that comprises in the above-mentioned ir radiation powdery pulp adds can improve the aerial rate of drying of coating, and the siccative component is preferably at least a in cobalt naphthenate, cobalt iso-octoate, zinc naphthenate or the manganese naphthenate.
Tinting pigment and dispersion synthetic fat acid resin in the good dispersion paints of solubility promoter energy that comprises in the dispersing auxiliary component that comprises in the above-mentioned ir radiation powdery pulp, it preferably includes and is n-propyl alcohol, Virahol, 1-butanols, 2-butanols, 1-amylalcohol, 2-amylalcohol, 3-amylalcohol, dibasic alcohol, polyvalent alcohol, contains at least a at least two kinds of alcoholic solvents in the above monohydroxy-alcohol of 6 carbon atoms and ethylene glycol ether acetate, N-BUTYL ACETATE, toluene, the dimethylbenzene.Wherein, more preferably ethylene glycol ether acetate, N-BUTYL ACETATE, toluene, dimethyl benzene, 2-butanols, Virahol, 3-amylalcohol of solubility promoter.Particularly ethylene glycol, ethylene glycol ether acetate, N-BUTYL ACETATE, 2-butanols have quickened the dispersion of tinting pigment and synthetic fat acid resin.This solubility promoter has added the lower alcoholic solvent of volatility, greatly reduce the toxic ingredient in the solvent, or the corresponding content that has increased the lower alcoholic solvent of volatility, make the weight percentage of dimethylbenzene in present embodiment coating in the above-mentioned carrier caking agent below 4%, greatly reduce the ratio of the poisonous and hazardous organic solvent of aromatics in the product gross weight such as toluene, dimethylbenzene of high volatility, both guaranteed that product has excellent film formation at low temp performance, had reduced the pollution level to environment again.
This temperature automatically controlled infrared radiation coating is owing to possess above-mentioned excellent properties, therefore, this coating can be used in the fields such as outdoor metal component surface processing, high-power LED street lamp, compressor for refrigeration, pressure die-casting machine, spark machine, numerically-controlled machine machining center, air compressor, electro-motor.
Present embodiment is above-mentioned temperature automatically controlled infrared radiation coating preparation method comprise the steps:
S1. obtain host, carrier caking agent, nano-oxide additive three components, described host accounts for 50.0~70.0% of three component gross weights, the carrier caking agent accounts for 20.0~40.0% of three component gross weights, and the nano-oxide additive accounts for 1.0~10.0% of three component gross weights;
S2. earlier host, nano-oxide additive are mixed, check is filtered, and obtains mixed solvent;
S3. above-mentioned mixed solvent and carrier caking agent are separated packing, obtain described temperature automatically controlled infrared radiation coating.
Now prescription and the preparation method with concrete temperature automatically controlled infrared radiation coating is example, and the present invention is further elaborated.
Embodiment 1
A, the preparation selected raw material of temperature automatically controlled infrared radiation coating host and proportioning are:
Sequence number material name wt%
1 Hydroxylated acrylic resin 40.0
2 synthetic fat acid resins 20.0
3 dimethylbenzene 1.0
4 ethylene glycol ether acetates 5.0
5 N-BUTYL ACETATEs 3.5
6 CH series hyper-dispersant 3.0
7 titanic acid ester TC-3 1.5
8 cobalt naphthenates 0.2
9 dioctyl phthalate (DOP)s 0.3
10 silicone antifoam agents 2.0
11 organosilicon flow agents 2.5
12 titanium-iron powders 5.0
13 red iron oxides 13.0
14 iron oxide blacks 3.0
Add up to: 100.0
B, preparation nano-oxide additive nano-oxide additive, selected raw material and proportioning are:
Sequence number material name wt%
1 nano zine oxide 40
2 nano titanium oxides 60
Add up to: 100.0
Above-mentioned A, B raw material are added dispersed with stirring in the agitation vat in 8: 2 ratio respectively, mix, check again, filtration, weighing, encapsulate, label, put in storage.
C, preparation rust-proof top-coat carrier caking agent, selected raw material and proportioning are:
Sequence number material name wt%
1 75% aliphatic isocyanates 40.0
2 75% aromatic isocyanates 20.0
3 dimethylbenzene 5.0
4 N-BUTYL ACETATEs 15.0
5 acetone 10.0
6 2-butanols 10.0
Add up to: 100.0
Above-mentioned raw materials is added in the agitation vat homodisperse to be checked, filter, encapsulates, labels, puts in storage about 30 minutes.
Execution conditions:
(1) substrate surface is handled: oil removing, cleaning, drying.As process phosphatization, polishing, sandblast, its sticking power can be better;
(2) construction proportioning:
Press temperature automatically controlled infrared radiation coating host and nano-oxide additive: carrier caking agent=8: 2 mixed, stir, leave standstill 5~10 minutes to the construction of still back;
(3) working viscosity: 14~18 seconds (being coated with-4 glasss).
Constructional method: spraying.
Drying conditions:
(1) surface drying time: 5 minutes/60 ℃ or 15 minutes/25 ℃;
(2) do solid work the time: placed 24 hours behind the surface drying;
(3) chemical property test: 7 days/25 ℃;
(4) topcoating is dry requires: after general 3~4 hours or complete drying;
Particular requirement: after host, solidifying agent mix, use up in 4 hours.
Embodiment 2:
A, the temperature automatically controlled infrared radiation coating host of preparation, selected raw material and proportioning are:
Sequence number material name wt%
1 Hydroxylated acrylic resin 30.0
2 synthetic fat acid resins 20.0
3 n-propyl alcohols 2.0
4 ethylene glycol ether acetates 10.0
5 vinyl acetic monomers 2
6 SN5040 dispersion agents 5.0
7 titanic acid ester TC-F 1.5
8 zinc naphthenates 1.0
9 dibutyl phthalates 1.0
10 silicone antifoam agents 1.0
11 organosilicon flow agents 1.5
12 titanium-iron powders 3.0
13 red iron oxides 20.0
14 iron oxide blacks 2.0
Add up to: 100.0
B, preparation nano-oxide additive, selected raw material and proportioning are:
Sequence number material name wt%
1 nanometer iron oxide red 30
2 nano silicons 40
3, nano iron oxide yellow 30
Add up to: 100.0
Above-mentioned A, B raw material are added dispersed with stirring in the agitation vat in 9: 1 ratio respectively, mix, check again, filtration, weighing, encapsulate, label, put in storage.
C carrier caking agent formula and production technique:
Sequence number material name wt%
1 75% aliphatic isocyanates solidifying agent 35.0
2 75% aromatic isocyanate solidifying agent 30.0
3 dimethylbenzene 8.0
4 N-BUTYL ACETATEs 10.0
5 acetone 100
6 2-butanols 7.0
Add up to: 100.0
Production technique and preparation method: above-mentioned raw materials is added in the agitation vat homodisperse check, filter, encapsulate, label, put in storage about 30 minutes.
Execution conditions:
(1) substrate surface is handled: same with embodiment 1;
(2) construction proportioning:
Press temperature automatically controlled infrared radiation coating host and nano-oxide additive: the carrier caking agent=mixed was even in 7: 3, left standstill still back construction in 5~10 minutes;
(3) working viscosity: same with embodiment 1.
All the other are also same with embodiment 1.
Embodiment 3:
A, the temperature automatically controlled infrared radiation coating host of preparation, selected raw material and proportioning are:
Sequence number material name wt%
1 Hydroxylated acrylic resin 25.0
2 synthetic fat acid resins 10.0
3 1-butanols 2.0
4 Virahols 5.0
5 ethyl-carbonates 1
6 HK-03 organic dispersing agents 2.5
7 titanic acid ester G-2 2.5
8 manganese naphthenates 1
9 dioctyl phthalate (DOP)s 2
10 silicone antifoam agents 5.0
11 organic radical flow agents 7.5
12 Gold Ore type titanium dioxides 4.0
13 iron oxide blacks 24
14 iron mica powder 2.0
15 ethylene glycol ether acetates 4.0
17 N-BUTYL ACETATEs 2.5
Add up to: 100.0
B, preparation nano-oxide additive, selected raw material and proportioning are:
Sequence number material name wt%
1 nano-sized black iron oxide 30
2 nano titanium oxides 30
3 nano zine oxides 25
4 nano-aluminium oxides 15
Add up to: 100.0
Above-mentioned A, B raw material are added dispersed with stirring in the agitation vat in 9.5: 0.5 ratio respectively, mix, check again, filtration, weighing, encapsulate, label, put in storage.
C carrier caking agent formula and production technique:
Sequence number material name wt%
1 75% aliphatic isocyanates solidifying agent 35.0
2 75% aromatic isocyanate solidifying agent 35.0
3 dimethylbenzene 5.0
4 N-BUTYL ACETATEs 12.5
5 2-butanols 12.5
Add up to: 100.0
Production technique and preparation method: homodisperse in the above-mentioned 1-5 adding agitation vat was checked, filters, encapsulates, labels, put in storage about 30 minutes.
Execution conditions:
(1) substrate surface is handled: same with embodiment 1;
(2) construction proportioning:
Press temperature automatically controlled infrared radiation coating host and nano-oxide additive: the carrier caking agent=mixed was even in 6: 4, left standstill still back construction in 5~10 minutes;
(3) working viscosity: same with embodiment 1.
All the other are also same with embodiment 1.
In order to prove the superperformance of present technique invention, temperature automatically controlled infrared radiation coating product that obtains among the embodiment 1 and the coating of using the back to form are detected, its performance test results is as follows:
Above-mentioned performance test results is arranged as can be known; after temperature automatically controlled infrared radiation coating is coated in the metal products surface; can effectively form stable protective layer on the metal products surface; can prevent effectively that the metallic surface is oxidized; the heat that is absorbed can be transmitted in atmosphere rapidly, prevented that effectively the metal products temperature is too high, simultaneously; can also effectively prevent koniology because of electrostatic interaction at the metal products surface deposition, thereby keep the cleaning of metal products.In addition, each component toxic substances is low in this coating, environmental protection.
The above only is preferred embodiment of the present invention, not in order to restriction the present invention, all any modifications of being done within the spirit and principles in the present invention, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention.
Claims (10)
1. temperature automatically controlled infrared radiation coating comprises following weight percent component:
Host 50.0~70.0%, carrier caking agent 20.0~40.0%, nano-oxide additive 1.0~10.0%.
2. temperature automatically controlled infrared radiation coating according to claim 1 is characterized in that: described nano-oxide additive is at least two kinds in nano tin dioxide, nano indium oxide, nano oxidized antimony, nanometer iron oxide red, nano-aluminium oxide, nano zine oxide, nano silicon, the nano titanium oxide.
3. temperature automatically controlled infrared radiation coating according to claim 1 and 2, it is characterized in that: described carrier caking agent comprises following weight percent component: 75% aromatic isocyanate 20.0~35%, 75% aliphatic isocyanates 30~40%, dimethylbenzene 5~10%, N-BUTYL ACETATE propyl alcohol 10.0~20%, 2-butanols 7~15%, acetone 0~10%.
4. temperature automatically controlled infrared radiation coating according to claim 1 and 2 is characterized in that: described host comprises following weight percent component: composite resin 30.0~60.0%, ir radiation powdery pulp 20.0~40.0%, auxiliary agent 10.0~30.0%.
5. temperature automatically controlled infrared radiation coating according to claim 4 is characterized in that: described ir radiation powdery pulp comprises synthetic fat acid resin, dispersing auxiliary, ir radiation powder and solvent;
Described composite resin comprises synthetic fat acid resin and Hydroxylated acrylic resin;
Described auxiliary agent comprises one or more in dispersion agent, coupling agent, silicone antifoam agent, organosilicon flow agent, solubility promoter, softening agent, inhibiter or the siccative.
6. temperature automatically controlled infrared radiation coating according to claim 5, it is characterized in that: synthetic fat acid resin, dispersing auxiliary, ir radiation powder and solvent composition account for ir radiation powdery pulp total weight percent and are respectively in the described ir radiation powdery pulp: synthetic fat acid resin 40.0~60.0%, dispersing auxiliary 5.0~15.0%, ir radiation powder 15.0~40.0%, solvent 10.0~30.0%;
The weight ratio of synthetic fat acid resin and Hydroxylated acrylic resin is 4~6: 6~4 in the described composite resin.
7. according to claim 5 or 6 described temperature automatically controlled infrared radiation coatings, it is characterized in that: described dispersing auxiliary comprises one or more in dispersion agent, coupling agent, silicone antifoam agent, organosilicon flow agent, solubility promoter, softening agent, inhibiter or the siccative.
8. according to claim 5 or 7 described temperature automatically controlled infrared radiation coatings, it is characterized in that:
Dispersion agent is at least a in HK-03 organic dispersing agent, CH series hyper-dispersant, SN5040 dispersion agent or the polyacrylic acid hydramine salt dispersion agent;
Described coupling agent is at least a in tetraethoxy, aluminic acid Virahol ester or the titanate coupling agent;
Described solubility promoter is n-propyl alcohol, Virahol, 1-butanols, 2-butanols, 1-amylalcohol, 2-amylalcohol, 3-amylalcohol, dibasic alcohol, polyvalent alcohol, contains at least a at least two kinds of alcoholic solvents in the above monohydroxy-alcohol of 6 carbon atoms and ethylene glycol ether acetate, N-BUTYL ACETATE, toluene, dimethyl benzene or the NSC 11801;
Described softening agent is a kind of in dibutyl phthalate, the dioctyl phthalate (DOP) or both;
At least a in the described barium mahogany sulfonate of described inhibiter, sad dicyclohexyl amine, phenylformic acid monoethanolamine or the 124 Triazole;
Described siccative is at least a in cobalt naphthenate, cobalt iso-octoate, manganese naphthenate, the zinc naphthenate.
9. according to claim 5 or 6 described temperature automatically controlled infrared radiation coatings, it is characterized in that: described ir radiation powder is the mixture that in non-transition metal oxides, copper powder, metallic aluminium powder, metal zinc, boride, semiconductor material, Mo Laishi, trichroite, zircon, talcum powder, the beautiful mica at least two kinds and transition metal oxide are formed;
Described solvent is by at least two kinds of composite forming in ethylene glycol ether acetate, N-BUTYL ACETATE, isoamyl acetate, the vinyl acetic monomer.
10. temperature automatically controlled infrared radiation coating according to claim 1 and 2 metal component surface processing out of doors, high-power LED street lamp, compressor for refrigeration, pressure die-casting machine, spark machine, numerically-controlled machine machining center, air compressor, electro-motor Application for Field.
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| CN 201010281161 CN101935487A (en) | 2010-09-14 | 2010-09-14 | Automatic temperature control infrared radiation coating and application thereof |
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| CN102607323A (en) * | 2011-12-18 | 2012-07-25 | 镇江市清源科技工程有限公司 | Metal plate of plate type heat exchanger |
| CN102964972A (en) * | 2012-11-06 | 2013-03-13 | 河北工业大学 | Composite intensified heat dissipation coating containing graphene or graphene oxide and preparation method of coating |
| CN103568101A (en) * | 2012-07-20 | 2014-02-12 | 湖南康宁达医疗设备有限公司 | Radiation protection material manufacturing method |
| CN104098948A (en) * | 2014-07-28 | 2014-10-15 | 广西梧州龙鱼漆业有限公司 | Additive for coating used in public place |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN102607323A (en) * | 2011-12-18 | 2012-07-25 | 镇江市清源科技工程有限公司 | Metal plate of plate type heat exchanger |
| CN103568101A (en) * | 2012-07-20 | 2014-02-12 | 湖南康宁达医疗设备有限公司 | Radiation protection material manufacturing method |
| CN102964972A (en) * | 2012-11-06 | 2013-03-13 | 河北工业大学 | Composite intensified heat dissipation coating containing graphene or graphene oxide and preparation method of coating |
| CN104098948A (en) * | 2014-07-28 | 2014-10-15 | 广西梧州龙鱼漆业有限公司 | Additive for coating used in public place |
| CN104371531A (en) * | 2014-12-08 | 2015-02-25 | 中国海洋石油总公司 | High-reflective acrylic polyurethane coating composition |
| CN104590432A (en) * | 2014-12-10 | 2015-05-06 | 苏州欣航微电子有限公司 | Electronic lock for electric bicycle |
| CN106318061A (en) * | 2015-06-30 | 2017-01-11 | 湖南康宁达医疗设备有限公司 | Multifunctional anti-radiation coating and preparation method thereof |
| CN106893436A (en) * | 2015-12-21 | 2017-06-27 | 北京蓝彬尚科涂料科技有限公司 | Double-component outer metallic surface heat-reflecting insulating coating and its preparation and application |
| CN106009811A (en) * | 2016-07-19 | 2016-10-12 | 董芬芳 | Heatproof anticorrosive antirust paint for metals |
| CN106634531A (en) * | 2016-12-13 | 2017-05-10 | 沈荣存 | High-temperature-resistant self-cleaning intelligent street lamp |
| CN107216796A (en) * | 2017-05-16 | 2017-09-29 | 昆明物理研究所 | New zinc-base infrared coating |
| CN108610955A (en) * | 2018-05-24 | 2018-10-02 | 合肥展游软件开发有限公司 | A kind of phone housing radiation shielding coating and preparation method thereof |
| CN108859336A (en) * | 2018-06-11 | 2018-11-23 | 苏州斯洁科电子有限公司 | A kind of production use for electronic products electrostatic preventive cloth |
| CN108774463A (en) * | 2018-07-13 | 2018-11-09 | 云浮市港泰环保节能材料有限公司 | A kind of high energy-saving coatings of porcelainization and its preparation method and application |
| CN108774463B (en) * | 2018-07-13 | 2021-01-29 | 云浮市港泰环保节能材料有限公司 | Porcelain high energy-saving paint and preparation method and application thereof |
| CN111303709A (en) * | 2020-03-09 | 2020-06-19 | 中国人民解放军国防科技大学 | Radiation refrigeration coating and preparation method and application thereof |
| CN113149625A (en) * | 2021-03-19 | 2021-07-23 | 河南嘉和节能科技有限公司 | High-temperature-resistant heat-insulating ash material for coke oven smoke guide hole cover and preparation method thereof |
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