CN1962768A - Thermal-isolating coating - Google Patents
Thermal-isolating coating Download PDFInfo
- Publication number
- CN1962768A CN1962768A CN 200510117684 CN200510117684A CN1962768A CN 1962768 A CN1962768 A CN 1962768A CN 200510117684 CN200510117684 CN 200510117684 CN 200510117684 A CN200510117684 A CN 200510117684A CN 1962768 A CN1962768 A CN 1962768A
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- Prior art keywords
- organic
- inorganic
- insulating coating
- thermal insulating
- resin
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Abstract
The invention discloses a heat-proof paint, which comprises the following parts: 40-50wt% resin adhesive, 3-8wt% solvent and 30-50wt% organic inorganic composite filler, wherein the heat-proof resin contains at least one macromolecule; the organic inorganic composite filler possesses nanometer micro-hole structure to connect resin adhesive effectively to reduce the quantity of resin adhesive, which is compatible with insulating and mechanic property for heat-proof paint.
Description
Technical field
The invention relates to a kind of thermal insulating coating, particularly contain organic inorganic thermal insulating coating that blendes together weighting material about a kind of.
Background technology
Because envrionment temperature continues to rise and the energy loss problem, heat-insulating and energy-saving has become a social concern that attracts people's attention, and the development of thermal insulating coating possesses the market outlook of high potentiality.The range of application of thermal insulating coating comprises petrochemical complex storage tank, grain warehouse storehouse, boats and ships, vehicle, factory building and dwelling house etc., and for present energy starved environment, its economic benefit is more remarkable.
The essentially consist of general coating comprises pigment, dyestuff, resin binder, solvent and weighting agent, and the special property of coating often depends on its weighting material.Thermal insulating coating is to add the weighting material with high-reflectivity, makes the coating of its formation have high-reflectivity, and is heat passage by reducing the minimizing of object surfaces temperature, produces heat-blocking action thereby reduce internal temperature.The weighting material that uses at present often is the inorganic ceramic particle, and as follows micron hollow ceramic ball or titanium dioxide provide heat insulation usefulness but only add the inorganic ceramic particle, can cause that the coating cost is too high, mechanical properties embrittlement and coating fraction of coverage be not good.As reduce the content of inorganic ceramic particle, and increase the adding proportion of resin binder, though can reduce cost, promote the coating fraction of coverage and avoid the mechanical properties embrittlement, can have influence on the heat-insulating properties of coating again.
Therefore,, can in coating, add inorganic ceramic particle and aerogel particles simultaneously, but when the addition of aerogel particles is lower than the solids content ratio of coating 20 percent, obviously not benefit for the lifting of heat-insulating properties for promoting heat-insulating properties.Run into the problem of the solids content ratio restriction of coating except meeting as the heavy addition aerogel particles, and the cost of aerogel particles is higher, can't reduce the thermal insulating coating cost, aerogel particles can't provide paint machine intensity simultaneously, has the not good problem of mechanical properties.
Summary of the invention
Main purpose of the present invention is to provide a kind of thermal insulating coating that organic-inorganic blendes together weighting material that comprises, and can be widely used in the application on various surfaces.The reduction of solids content ratio and the adding organic-inorganic of resin binder in the coating are blended together weighting material, can improve mechanical properties, heat conduction property and the extinction of coating simultaneously.
For achieving the above object, thermal insulating coating provided by the invention its comprise:
One resin binder accounts for the 40wt% to 50wt% of total composition, comprises more than one polymer;
One solvent accounts for the 3wt% to 8wt% of total composition; And
One organic-inorganic blendes together weighting material, accounts for the 30wt% to 50wt% of total composition, has the nanometer micropore structure.
Described thermal insulating coating, wherein this heat stable resin is a thermosetting resin.
Described thermal insulating coating, wherein this heat stable resin is selected from iolon, poly-1-butylene, 1, polystyrene, the propylene-styrene resin, acrylonitril butadiene styrene resin, poly-p-methylstyrene, the butadiene-styrene block polymer, the styrene isoprene block polymer, vinylbenzene-methyl methacrylate block polymer, phenylethylene-maleic diacid wine anhydride copolymer, the vinylbenzene maleimide copolymer, vinylbenzene-N-phenylmaleimide multipolymer, methymethacrylate-butadiene styrene resin, polyamide resin, poly terephthalic acid hexylene glycol fat, the polybutylene terephthalate, polyphenylene sulfide, polyethers copper, polyimide, silicone resin, polysiloxane, polymethyl methacrylate, celluosic resin, polyvinyl acetal resin, urethane resin, polyalkide resin, the group that resol is formed one of them or its arbitrary combination.
Described thermal insulating coating, wherein this organic-inorganic blendes together the nanometer micropore structure aperture size of weighting material between 1 to 10 nanometer.
Described thermal insulating coating, wherein to blend together the porosity of weighting material be more than 80% to this organic-inorganic.
Described thermal insulating coating, wherein this organic-inorganic blend together the specific surface area of weighting material be 400 to 1200 square centimeters/gram (m
2/ g).
Described thermal insulating coating, it is synthetic by an organic starting material and an inorganic parent material that wherein this organic-inorganic blendes together weighting material.
Described thermal insulating coating, wherein to blend together weighting material be that an organic-inorganic blendes together aerogel to this organic-inorganic.
Described thermal insulating coating, wherein this organic-inorganic manufacturing step of blending together aerogel comprises:
This organic starting material is provided;
Add a basic catalyst;
With sol-gel method this organic starting material is synthesized an organic aerogel solution;
Adding this inorganic parent material in this organic aerogel solution forms an organic-inorganic and blendes together aerogel solution; And
Make this organic-inorganic blend together aerogel solution formation exsiccant organic-inorganic with the CO 2 supercritical desiccating method and blend together weighting material.
Described thermal insulating coating, wherein this inorganic parent material material is selected from aluminium sesquioxide (Al
2O
3) aerogel, titanium dioxide (TiO
2) aerogel, silicon-dioxide (SiO
2) aerogel and zirconium white (ZrO
2) aerogel.
Described thermal insulating coating, wherein this organic starting material comprises formaldehyde and Resorcinol.
Described thermal insulating coating, wherein this basic catalyst comprises salt of wormwood, yellow soda ash and saleratus.
Described thermal insulating coating also comprises a flame retardant.
Described thermal insulating coating, wherein this flame retardant be selected from a phosphorus nitrogen be a flame retardant and a phosphite be the group that forms of flame retardant one of them.
Described thermal insulating coating, wherein this phosphorus nitrogen be flame retardant be selected from group that primary ammonium phosphate, Secondary ammonium phosphate, phosphoric acid element, phosphoric acid crow urea, ammonium polyphosphate, phosphoric acid trimerization atmosphere ammonium, trimerization oronain, the encapsulated white phosphorus of red phosphorus, red phosphorus, ammonium polyphosphate and phosphoric acid fat formed one of them.
Described thermal insulating coating also comprises a dyestuff.
Say further, thermal insulating coating need possess good heat insulation and mechanical properties, the present invention blendes together weighting material by the interpolation organic-inorganic and reaches effect of heat insulation, because organic-inorganic blendes together weighting material and can form effective the combination with resin binder, can effectively reduce the usage quantity of resin binder, make thermal insulating coating have good heat insulation and mechanical properties concurrently.
Wherein, organic-inorganic blendes together the aperture size of nanometer micropore structure of weighting material with preferable between 1 to 10 nanometer, organic-inorganic blendes together weighting material and can be organic-inorganic and blend together aerogel, aerogel (is the material of a kind of transparent, multiple hole, open chamber (open cell), low density foam (foam), have nano level hole and fine particle and form the nanometer micropore structure, have high porosity, so weight is very light.Aerogel has compared to the very low thermal conduction degree of general solid, low-refraction, low velocity of sound and low-k etc., has good effect of heat insulation and also has the characteristic of vibration absorptive material simultaneously.Particularly making aerogel with organic class or mineral-type compound can effectively increase its optical extinction coefficient, reduce radiation thermal conduction.
And organic-inorganic blendes together weighting material and can use organic-inorganic to blend together aerogel, and can cooperate methods such as CO 2 supercritical desiccating method and sol-gel method synthetic.Earlier synthetic organic-inorganic blendes together aerogel in processing procedure, and organic parent material at first is provided, and adds basic catalyst again, with sol-gel method above-mentioned materials is synthesized organic aerogel solution then.In organic aerogel solution, add inorganic parent material and blend together aerogel solution, impose CO 2 supercritical desiccating method formation exsiccant organic-inorganic again and blend together weighting material to form organic-inorganic.
Description of drawings
Fig. 1 is the formed heat insulating coat synoptic diagram of the embodiment of the invention.
Embodiment
Thermal insulating coating provided by the present invention, the resin binder, 3wt% to 8wt% solvent and 30wt% to the 50wt% organic-inorganic that mainly comprise 40wt% to 50wt% blend together weighting material.Resin binder comprises more than one polymer, and organic-inorganic blendes together weighting material and has the nanometer micropore structure.
On material is selected, can be used the demand of environment, the resin binder that selection can anti-differing temps generally selects thermosetting resin preferable.For example, select iolon, poly-1-butylene, 1, polystyrene, the propylene-styrene resin, acrylonitril butadiene styrene resin, poly-p-methylstyrene, the butadiene-styrene block polymer, the styrene isoprene block polymer, vinylbenzene-methyl methacrylate block polymer, phenylethylene-maleic diacid wine anhydride copolymer, the vinylbenzene maleimide copolymer, vinylbenzene-N-phenylmaleimide multipolymer, methymethacrylate-butadiene styrene resin, polyamide resin, poly terephthalic acid hexylene glycol fat, the polybutylene terephthalate, polyphenylene sulfide, polyethers copper, polyimide, silicone resin, polysiloxane, polymethyl methacrylate, celluosic resin, polyvinyl acetal resin, urethane resin, polyalkide resin, resol or its arbitrary combination.
Organic-inorganic blendes together weighting material can use porosity more than 80%, 400 to 1200 square centimeters/gram of specific surface area (m
2/ g) organic-inorganic blendes together aerogel, can add that in the collosol and gel mode supercritical drying is made by organic starting material and inorganic parent material, in the process of organic starting material and inorganic parent material synthetic gas gel, energy binding interlaced with each other forms even organic-inorganic and blendes together packing structure.The material of inorganic parent material can be selected from aluminium sesquioxide (Al
2O
3) aerogel, titanium dioxide (TiO
2) aerogel, silicon-dioxide (SiO
2) aerogel or zirconium white (ZrO
2) aerogel.
In addition, also can cooperate demand in thermal insulating coating, to add additives such as dyestuff or flame retardant, adding suitable dyestuff can increase the reflectivity of coating, it is that flame retardant or phosphite are flame retardant that flame retardant can be phosphorus nitrogen, and phosphorus nitrogen is for example primary ammonium phosphate, Secondary ammonium phosphate, phosphoric acid element, phosphoric acid bird urea, ammonium polyphosphate, phosphoric acid melamine, melamine, the encapsulated white phosphorus of red phosphorus, red phosphorus, ammonium polyphosphate, phosphoric acid fat of flame retardant.
The embodiment of the invention is that earlier synthetic organic-inorganic blendes together aerogel, and remix acryl resin and low-molecular-weight polymer cakingagent form thermal insulating coating.
Embodiment of the invention manufacturing process is as follows: restrain Resorcinols as the organic starting material with 60 gram formaldehyde and 40, and add the organic starting material as basic catalyst with 0.276 gram salt of wormwood, 0.212 gram yellow soda ash and 0.1 gram saleratus, and the mixing appropriate amount of deionized water, form organic aerogel solution.Again 36 gram inorganic aerogels are added 100 gram organic aerogel solution, add 500ml acetone simultaneously, fall water, impose the CO 2 supercritical desiccating method again, form organic-inorganic and blend together aerogel powder in order to displacement.Blend together aerogel powder with the low-molecular-weight polymer cakingagent adding of 23 grams organic-inorganic again and steep, again to stir the last acryl resin of also slowly pouring at a slow speed into ethanolic soln.Back other additives of adding that stir promptly form the thermal insulating coating of the embodiment of the invention.
The thermal insulating coating of the embodiment of the invention is coated on the base material, after 1 hour, be cooled to room temperature, continuing with 250 degree bakings Celsius 4 hours with 250 degree bakings Celsius.Please refer to Fig. 1, be the formed heat insulating coat synoptic diagram of the embodiment of the invention.The heat insulating coat 200 of base material 100 coatings comprises macromolecule layer 210 and organic-inorganic blendes together aerogel 220.Organic-inorganic blendes together the organic aerogel 222 that aerogel 220 comprises inorganic aerogels 221 and coated inorganic aerogel 221.
In sum, the present invention blendes together the reduction of solids content ratio and the adding organic-inorganic of resin binder in the coating with weighting material, and can improve mechanical properties, the heat conduction property of coating.
Claims (16)
1. thermal insulating coating, it comprises:
One resin binder accounts for the 40wt% to 50wt% of total composition, comprises more than one polymer;
One solvent accounts for the 3wt% to 8wt% of total composition; And
One organic-inorganic blendes together weighting material, accounts for the 30wt% to 50wt% of total composition, has the nanometer micropore structure.
2. thermal insulating coating as claimed in claim 1 is characterized in that, wherein this heat stable resin is a thermosetting resin.
3. thermal insulating coating as claimed in claim 1, it is characterized in that, wherein this heat stable resin is selected from iolon, poly-1-butylene, 1, polystyrene, the propylene-styrene resin, acrylonitril butadiene styrene resin, poly-p-methylstyrene, the butadiene-styrene block polymer, the styrene isoprene block polymer, vinylbenzene-methyl methacrylate block polymer, phenylethylene-maleic diacid wine anhydride copolymer, the vinylbenzene maleimide copolymer, vinylbenzene-N-phenylmaleimide multipolymer, methymethacrylate-butadiene styrene resin, polyamide resin, poly terephthalic acid hexylene glycol fat, the polybutylene terephthalate, polyphenylene sulfide, polyethers copper, polyimide, silicone resin, polysiloxane, polymethyl methacrylate, celluosic resin, polyvinyl acetal resin, urethane resin, polyalkide resin, the group that resol is formed one of them or its arbitrary combination.
4. thermal insulating coating as claimed in claim 1 is characterized in that, wherein this organic-inorganic blendes together the nanometer micropore structure aperture size of weighting material between 1 to 10 nanometer.
5. thermal insulating coating as claimed in claim 1 is characterized in that, wherein to blend together the porosity of weighting material be more than 80% to this organic-inorganic.
6. thermal insulating coating as claimed in claim 1 is characterized in that, wherein this organic-inorganic blend together the specific surface area of weighting material be 400 to 1200 square centimeters/gram.
7. thermal insulating coating as claimed in claim 1 is characterized in that, it is synthetic by an organic starting material and an inorganic parent material that wherein this organic-inorganic blendes together weighting material.
8. thermal insulating coating as claimed in claim 1 is characterized in that, wherein to blend together weighting material be that an organic-inorganic blendes together aerogel to this organic-inorganic.
9. thermal insulating coating as claimed in claim 8 is characterized in that, wherein this organic-inorganic manufacturing step of blending together aerogel comprises:
This organic starting material is provided;
Add a basic catalyst;
With sol-gel method this organic starting material is synthesized an organic aerogel solution;
Adding this inorganic parent material in this organic aerogel solution forms an organic-inorganic and blendes together aerogel solution; And
Make this organic-inorganic blend together aerogel solution formation exsiccant organic-inorganic with the CO 2 supercritical desiccating method and blend together weighting material.
10. thermal insulating coating as claimed in claim 9 is characterized in that, wherein this inorganic parent material material is selected from aluminium sesquioxide aerogel, titania aerogel, aerosil and zirconia aerogels.
11. thermal insulating coating as claimed in claim 9 is characterized in that, wherein this organic starting material comprises formaldehyde and Resorcinol.
12. thermal insulating coating as claimed in claim 9 is characterized in that, wherein this basic catalyst comprises salt of wormwood, yellow soda ash and saleratus.
13. thermal insulating coating as claimed in claim 1 is characterized in that, also comprises a flame retardant.
14. thermal insulating coating as claimed in claim 12 is characterized in that, wherein this flame retardant be selected from a phosphorus nitrogen be a flame retardant and a phosphite be the group that forms of flame retardant one of them.
15. thermal insulating coating as claimed in claim 12, it is characterized in that, wherein this phosphorus nitrogen be flame retardant be selected from group that primary ammonium phosphate, Secondary ammonium phosphate, phosphoric acid element, phosphoric acid crow urea, ammonium polyphosphate, phosphoric acid trimerization atmosphere ammonium, trimerization oronain, the encapsulated white phosphorus of red phosphorus, red phosphorus, ammonium polyphosphate and phosphoric acid fat formed one of them.
16. thermal insulating coating as claimed in claim 1 is characterized in that, also comprises a dyestuff.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB2005101176844A CN100537673C (en) | 2005-11-08 | 2005-11-08 | Thermal-isolating coating |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB2005101176844A CN100537673C (en) | 2005-11-08 | 2005-11-08 | Thermal-isolating coating |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN1962768A true CN1962768A (en) | 2007-05-16 |
| CN100537673C CN100537673C (en) | 2009-09-09 |
Family
ID=38082004
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CNB2005101176844A Active CN100537673C (en) | 2005-11-08 | 2005-11-08 | Thermal-isolating coating |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN100537673C (en) |
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| CN102443154A (en) * | 2010-09-30 | 2012-05-09 | 中国石油化工股份有限公司 | Aerogel catalyst and preparation method thereof |
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