CN102115631A - Dual-component oil polyurethane temperature-preserving and heat-insulating coating and preparation method thereof - Google Patents

Abstract

The invention provides a dual-component oil polyurethane temperature-preserving and heat-insulating coating, wherein the weight ratio of main agent to curing agent is 10: (1-2); the main agent comprises the components based on parts by weight: 40-60 of polyurethane resin, 0.4-0.6 of dispersing agent, 0.2-0.5 of wetting agent, 25-30 of titanium white powder, 0.2-0.5 of antifoaming agent, 0.2-0.6 of flatting agent, 2-4 of PMA (propylene glycol monomethyl ether), 2-4 of butyl ester, 4-6 of dimethyl benzene, 6-10 of cenosphere and 1-3 of hollow expanded microballoon; the polyurethane resin is hydroxy acrylic resin AC1150; and the curing agent is mixed by quick dry type tripolymer with theanhydrous butyl ester according to the weight ratio of (75-80): (20-25). The preparation method of the main agent comprises the steps of: mixing the polyurethane resin, the dispersing agent with the wetting agent, and evenly stirring; adding the titanium white powder, and dispersing at a high speed for 15-20 minutes; adding the antifoaming agent, the flatting agent, the propylene glycol monomethyl ether PMA, the butyl ester and the dimethyl benzene, and completely stirring to be even; slowly adding the cenosphere and the hollow expanded microballoon; and stirring at an intermediate speed for 10-30 minutes to be completely even after adding. The coating is good in weather resistance, stains resistance, water resistance and alkali resistance, and is convenient in construction, thereby being suitable for the external heat preservation of an outer wall and a metal surface.

Description

A kind of pair of component oiliness polyurethane heat-insulation thermal insulating coating and preparation method thereof

Technical field

The present invention relates to coating and preparation method thereof, especially relate to a kind of oiliness polyurethane heat-insulation thermal insulating coating that is applied to metal covering or skin surface and preparation method thereof.

Background technology

Because the flourishing day by day and human destruction to the Nature of world industry, energy-saving and cost-reducing work has caused the concern and the attention of countries in the world, and the building energy consumption of China accounts for more than 30% of national energy consumption, so that exploitation is used for the building energy-saving material is even more important.Coating products as the heat insulating of building energy conservation, mainly contain expansion polyphenyl (EPS) plate thinly plastered external insulation system of outer wall, expansion polyphenyl (EPS) granule exterior wall outer heat preservation system, silicate thermal insulating coating at present and add the thin coating etc. of cenosphere with elastic emulsion, but expansion polyphenyl (EPS) plate thinly plastered external insulation system of outer wall, expansion polyphenyl (EPS) granule exterior wall outer heat preservation system and coating all exist the problem that construction is complicated, work-ing life is short, maintenance cost is high; The thin coating that silicate thermal insulating coating and elastic emulsion add cenosphere exists energy-saving effect and does not reach problems such as face that expection and this type of material can not be used for metallic surface and antisepsis finishing paint layer is coated with.

Summary of the invention

The technical problem to be solved in the present invention provides a kind ofly to be had excellent weathering resistance, resistance to soiling, water-fast, alkali resistance and easy construction and can be used as external wall outer insulation and two component oiliness polyurethane heat-insulation thermal insulating coatings of the outer insulation of metal covering, and while the present invention also provides the preparation method of this coating.

For solving the problems of the technologies described above, the invention provides a kind of pair of component oiliness polyurethane heat-insulation thermal insulating coating, it is characterized in that, by host and solidifying agent according to 10: the ratio of weight and number of 1-2 mixes; Described host is made by each component of following parts by weight: urethane resin 40-60 part, dispersion agent 0.4-0.6 part, wetting agent 0.2-0.5 part, titanium dioxide 25-30 part, defoamer 0.2-0.5 part, flow agent 0.2-0.6 part, PMA propylene glycol monomethyl ether 2-4 part, butyl ester 2-4 part, dimethylbenzene 4-6 part, cenosphere 6-10 part, hollow type expandable microspheres 1-3 part; Described urethane resin is that the trade mark is the Hydroxylated acrylic resin of AC1150; Described solidifying agent is mixed by the quick-dry type tripolymer of 75-80 weight part and the anhydrous butyl ester of 20-25 weight part.

Described host and solidifying agent mix according to 10: 1 ratio of weight and number; Described host is made by each component of following parts by weight: 50 parts of urethane resins, 0.4 part of dispersion agent, 0.3 part of wetting agent, 28 parts of titanium dioxides, 0.3 part of defoamer, 0.3 part of flow agent, 3 parts of PMA propylene glycol monomethyl ethers, 3 parts of butyl esters, 6 parts of dimethylbenzene, 7 parts of cenospheres, 2 parts of hollow type expandable microspheres; Described solidifying agent is mixed by the quick-dry type tripolymer of 75 weight parts and the anhydrous butyl ester of 25 weight parts.

Described host and solidifying agent mix according to 10: 2 ratio of weight and number; Described host is made by each component of following parts by weight: 45 parts of urethane resins, 0.5 part of dispersion agent, 0.4 part of wetting agent, 30 parts of titanium dioxides, 0.4 part of defoamer, 0.5 part of flow agent, 4 parts of PMA propylene glycol monomethyl ethers, 4 parts of butyl esters, 5 parts of dimethylbenzene, 8.5 parts of cenospheres, 2 parts of hollow type expandable microspheres; Described solidifying agent is mixed by the quick-dry type tripolymer of 80 weight parts and the anhydrous butyl ester of 20 weight parts.

Described dispersion agent is that the trade mark of Bi Ke chemical company is the dispersion agent of BYK163; Described wetting agent is that the trade mark of Bi Ke chemical company is the wetting agent of BYK-P104S.

Described titanium dioxide is a rutile titanium dioxide.

Described defoamer is the modified polyorganosiloxane defoamer; Described flow agent is that the trade mark of Bi Ke chemical company is the flow agent of BYK-306.

Described cenosphere is that the trade mark of U.S. Pq Corp. is the cenosphere product of Q-CEL6030.

The trade mark that described hollow type expandable microspheres is Aksu company is the hollow type expandable microspheres of EXPANCEL@551DE40d36.

Described quick-dry type tripolymer is quick-dry type tripolymer TKA-75B.

Simultaneously, the present invention also provides the preparation method of described pair of component oiliness polyurethane heat-insulation thermal insulating coating, it is characterized in that, the preparation process of its host is as follows: described with urethane resin, dispersion agent, wetting agent mixing and stirring, add titanium dioxide, high speed dispersion 15-20 minute then, add defoamer, flow agent, propylene glycol monomethyl ether PMA, butyl ester, dimethylbenzene again, stir, slowly add cenosphere and hollow type expandable microspheres again, after adding, middling speed stirs 10-30 minute to even fully.

Beneficial effect of the present invention: the present invention mainly utilizes filmogen (urethane resin), cenosphere, hollow type expandable microspheres, titanium dioxide, coatings additive(s), the solidifying agent in the prescription, form the heat insulating thin film layer at exterior wall and metal covering, thereby played the effect of heat insulating.Have advantages such as excellent weathering resistance, resistance to soiling, water-fast, alkali resistance and easy construction.Can be used as external wall outer insulation and metal covering is incubated outward.

Embodiment

In the embodiment, each component all adopts existing commercially available prod, and wherein, described urethane resin is a Hydroxylated acrylic resin, and preferably adopting the brilliant trade mark with moral company is the Hydroxylated acrylic resin product of AC1150; Described dispersion agent is the high molecular block copolymerization liquid solution of band pigment affinity groups, and the trade mark that preferably adopts Bi Ke chemical company is the product of BYK163; Described wetting agent is the electric neutrality salt of poly carboxylic acid organic amine, and the trade mark that preferably adopts Bi Ke chemical company is the product of BYK-P104S; Described titanium dioxide is a rutile titanium dioxide, and the trade mark that preferably adopts E.I.Du Pont Company is the product of R-706; Described defoamer is the modified polyorganosiloxane defoamer, and it is remarkable especially the bubble of polyurethane coating thick film to be eliminated effect, can adopt the product of the modest company of this moral of hamming 5300 trades mark; Described flow agent is polyether-modified dimethyl siloxane solution, it is organosilicon flow agent efficiently, be used for the wetting wetting ground that is difficult to, can increase acceptability to dust and coating cloud, and can on vertical surface, form thicker paint film, the trade mark that preferably adopts Bi Ke chemical company is the product of BYK-306.Thereby described cenosphere mainly is a reflected illumination reduces the body surface temperature at the sunlight of body surface, and the trade mark that can adopt U.S. Pq Corp. is the product of Q-CEL6030; Described hollow type expandable microspheres realizes thermal isolation by the cellular structure that little reaction of expanding is created, thermal conductivity is low, the heat of sunlight is gathered in expandable microspheres in all, thereby realize effect of heat insulation, the trade mark that preferably adopts Aksu company is the product of EXPANCEL@551DE40d36; The preferred quick-dry type tripolymer of quick-dry type tripolymer TKA-75B; Described propylene glycol monomethyl ether (PMA), dimethylbenzene, butyl ester, anhydrous butyl ester select for use the conventional product that uses in ability city to get final product.

Embodiment 1

Two component oiliness polyurethane heat-insulation thermal insulating coatings of preparation present embodiment 1.

Preparation host: measure above-mentioned urethane resin 50Kg, dispersion agent 0.4Kg, wetting agent 0.3Kg, titanium dioxide 28Kg, defoamer 0.3Kg, flow agent 0.3Kg, PMA (propylene glycol monomethyl ether) 3Kg, butyl ester 3Kg, dimethylbenzene 6Kg, cenosphere 7Kg, hollow type expandable microspheres 2Kg.With urethane resin, dispersion agent, wetting agent mixing and stirring, add titanium dioxide then, high speed dispersion 15-20 minute, adding defoamer, flow agent, PMA (propylene glycol monomethyl ether), butyl ester, dimethylbenzene again stirs, slowly add cenosphere, hollow type expandable microspheres again, add the back middling speed and stir 10-30 minute, promptly obtain the host of two component oiliness polyurethane heat-insulation thermal insulating coatings of present embodiment to fully evenly.

The solidifying agent of preparation present embodiment: measure fast 7.5Kg dry type tripolymer TKA-75B, the anhydrous butyl ester of 2.5Kg, the two dispersed with stirring 5-10 minute is extremely evenly got final product.

During use with the above-mentioned host that obtains and solidifying agent according to 10: 1 mixed stirring of weight ratio, can construct, be coated on exterior wall and metallic surface, constructional method is identical with ability city ordinary method.GB/T235-2008 detects according to " People's Republic of China's building industry industry standard ", the quality and technical index that obtains as shown in Table 1:

Table one

Embodiment 2

Measure urethane resin 45Kg, dispersion agent 0.5Kg, wetting agent 0.4Kg, titanium dioxide 30Kg, defoamer 0.4Kg, flow agent 0.5Kg, PMA (propylene glycol monomethyl ether) 4Kg, butyl ester 4Kg, dimethylbenzene 5Kg, cenosphere 8.5Kg, hollow type expandable microspheres 2Kg.Measure 16Kg quick-dry type tripolymer TKA-75B, the anhydrous butyl ester of 4Kg.The host and the solidifying agent that prepare present embodiment 2 according to method, the step of embodiment 1, during use with the above-mentioned host that obtains and solidifying agent according to 10: 2 mixed stirring of weight ratio, can construct, be coated on exterior wall and metallic surface, constructional method is identical with ability city ordinary method.GB/T235-2008 detects according to " People's Republic of China's building industry industry standard ", the quality and technical index that obtains as shown in Table 2:

Table two

Claims (10)

1. a two component oiliness polyurethane heat-insulation thermal insulating coating is characterized in that, by host and solidifying agent according to 10: the ratio of weight and number of 1-2 mixes; Described host is made by each component of following parts by weight: urethane resin 40-60 part, dispersion agent 0.4-0.6 part, wetting agent 0.2-0.5 part, titanium dioxide 25-30 part, defoamer 0.2-0.5 part, flow agent 0.2-0.6 part, PMA propylene glycol monomethyl ether 2-4 part, butyl ester 2-4 part, dimethylbenzene 4-6 part, cenosphere 6-10 part, hollow type expandable microspheres 1-3 part; Described urethane resin is that the trade mark is the Hydroxylated acrylic resin of AC1150; Described solidifying agent is mixed by the quick-dry type tripolymer of 75-80 weight part and the anhydrous butyl ester of 20-25 weight part.

2. according to claim 1 pair of component oiliness polyurethane heat-insulation thermal insulating coating is characterized in that described host and solidifying agent mix according to 10: 1 ratio of weight and number; Described host is made by each component of following parts by weight: 50 parts of urethane resins, 0.4 part of dispersion agent, 0.3 part of wetting agent, 28 parts of titanium dioxides, 0.3 part of defoamer, 0.3 part of flow agent, 3 parts of PMA propylene glycol monomethyl ethers, 3 parts of butyl esters, 6 parts of dimethylbenzene, 7 parts of cenospheres, 2 parts of hollow type expandable microspheres; Described solidifying agent is mixed by the quick-dry type tripolymer of 75 weight parts and the anhydrous butyl ester of 25 weight parts.

3. according to claim 1 pair of component oiliness polyurethane heat-insulation thermal insulating coating is characterized in that described host and solidifying agent mix according to 10: 2 ratio of weight and number; Described host is made by each component of following parts by weight: 45 parts of urethane resins, 0.5 part of dispersion agent, 0.4 part of wetting agent, 30 parts of titanium dioxides, 0.4 part of defoamer, 0.5 part of flow agent, 4 parts of PMA propylene glycol monomethyl ethers, 4 parts of butyl esters, 5 parts of dimethylbenzene, 8.5 parts of cenospheres, 2 parts of hollow type expandable microspheres; Described solidifying agent is mixed by the quick-dry type tripolymer of 80 weight parts and the anhydrous butyl ester of 20 weight parts.

4. according to each described pair of component oiliness polyurethane heat-insulation thermal insulating coating of claim 1-3, it is characterized in that described dispersion agent is that the trade mark of Bi Ke chemical company is the dispersion agent of BYK163; Described wetting agent is that the trade mark of Bi Ke chemical company is the wetting agent of BYK-P104S.

5. according to each described pair of component oiliness polyurethane heat-insulation thermal insulating coating of claim 1-3, it is characterized in that described titanium dioxide is a rutile titanium dioxide.

6. according to each described pair of component oiliness polyurethane heat-insulation thermal insulating coating of claim 1-3, it is characterized in that described defoamer is the modified polyorganosiloxane defoamer; Described flow agent is that the trade mark of Bi Ke chemical company is the flow agent of BYK-306.

7. according to each described pair of component oiliness polyurethane heat-insulation thermal insulating coating of claim 1-3, it is characterized in that described cenosphere is that the trade mark of U.S. Pq Corp. is the cenosphere product of Q-CEL6030.

8. according to each described pair of component oiliness polyurethane heat-insulation thermal insulating coating of claim 1-3, it is characterized in that the trade mark that described hollow type expandable microspheres is Aksu company is the hollow type expandable microspheres of EXPANCEL@551DE40d36.

9. according to each described pair of component oiliness polyurethane heat-insulation thermal insulating coating of claim 1-3, it is characterized in that described quick-dry type tripolymer is quick-dry type tripolymer TKA-75B.

10. the preparation method of described pair of component oiliness of claim 1 polyurethane heat-insulation thermal insulating coating, it is characterized in that, the preparation process of its host is as follows: described with urethane resin, dispersion agent, wetting agent mixing and stirring, add titanium dioxide, high speed dispersion 15-20 minute then, add defoamer, flow agent, propylene glycol monomethyl ether PMA, butyl ester, dimethylbenzene again, stir, slowly add cenosphere and hollow type expandable microspheres again, after adding, middling speed stirs 10-30 minute to even fully.