CN103450806A - Special heat insulation coating and preparation method thereof - Google Patents
Special heat insulation coating and preparation method thereof Download PDFInfo
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- CN103450806A CN103450806A CN 201310392066 CN201310392066A CN103450806A CN 103450806 A CN103450806 A CN 103450806A CN 201310392066 CN201310392066 CN 201310392066 CN 201310392066 A CN201310392066 A CN 201310392066A CN 103450806 A CN103450806 A CN 103450806A
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- thermal insulation
- heat insulation
- aluminum nitride
- hollow glass
- insulation coatings
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Abstract
The invention discloses a special heat insulation coating, comprising the following components in percentage by weight: 30-40% of an emulsion, 10-20% of aluminum nitride ceramic powder, 10-20% of hollow glass micro-spheres, 2-5% of aluminum silicate powder, 0.01-0.2% of rare earth, 1-5% of high titanium powder, 0.5-1% of salicylic acid, 0.2-1% of sulfonated oil, 10-30% of water and 0.2-1% of tributyl phosphate. Meanwhile, the invention also discloses a preparation method of the special heat insulation coating. The special heat insulation coating provided by the invention is thin in coating layer, light in weight, good in adhesive force and heat insulation effect, and can be well applied to actual life.
Description
Technical field
The present invention relates to a kind of special thermal insulation coatings, specifically a kind of thermal insulation coatings and making method thereof for hold-up vessel outside surface and surface, house.
Background technology
At present, be applied in the lagging material that some are general that is mostly on hold-up vessel and surface, house, the laying of these lagging materials and surperficial planeness have very large relation, there are the equipment such as hold-up vessel of radian on some surfaces, lagging material is difficult to lay, easily cause the insulation bed thickness, seam is many, weight is large, and water-repellancy is poor.In addition, the laying of lagging material needs great manpower, constructs also very inconvenient, and therefore, inventing a kind of special thermal insulation coatings, to solve this class difficult problem be a good method.
Summary of the invention
The object of the invention is to for the deficiencies in the prior art, a kind of thermal insulation coatings for hold-up vessel and surface, house and the making method of this thermal insulation coatings are provided.
In order to solve the deficiencies in the prior art, the invention provides a kind of special thermal insulation coatings, comprise the component of following weight percent: 0 ~ 40% emulsion, 10 ~ 20% aluminum nitride ceramic, 10 ~ 20% hollow glass microballoon, 2 ~ 5% aluminium silicate powder, 0.01 ~ 0.2% rare earth, 1 ~ 5% high titanium valve, 0.5 ~ 1% Whitfield's ointment, 0.2 ~ 1% sulphonated oil, 10 ~ 30% water and 0.2 ~ 1% tributyl phosphate.
Wherein, the fineness of aluminum nitride ceramic is 200 ~ 300 orders.
Wherein, the fineness of hollow glass microballoon is 100 ~ 200 orders.
Wherein, the fineness of aluminium silicate powder, high titanium valve is 400 ~ 500 orders.
Manufacture the method for above-mentioned special thermal insulation coatings, it is characterized in that it comprises following step:
(1) aluminium silicate powder of formula ratio, rare earth, high titanium valve, Whitfield's ointment, sulphonated oil are added to the water, stir 20 ~ 30 minutes;
(2) aluminum nitride ceramic, hollow glass microballoon are joined in the solution of step (1), stir 30 ~ 40 minutes;
(3) finally tributyl phosphate is reentered in the solution of step (2) gained and stir;
(4) adjust pH to 6.5 ~ 7.5.
The invention provides a kind of special thermal insulation coatings, the characteristics such as coating is thin, lightweight, sticking power is good, heat insulation effect is remarkable, easy construction, solved the problem that in the real work, reservoir surface is difficult to lay lagging material.The preparation method of thermal insulation coatings provided by the invention, science is simple, saves a large amount of energy consumptions, simultaneously environmentally safe.
Specific embodiment:
Embodiment 1
Thermal insulation coatings, the weight percent of each component is as follows: 35% emulsion, 15% aluminum nitride ceramic, 15% hollow glass microballoon, 2% aluminium silicate powder, 0.2% rare earth, 1% high titanium valve, 0.8% Whitfield's ointment, 0.5% sulphonated oil, 30% water and 0.5% tributyl phosphate.
Wherein, the fineness of aluminum nitride ceramic is 200 orders.
Wherein, the fineness of hollow glass microballoon is 100 orders.
Wherein, the fineness of aluminium silicate powder, high titanium valve is 400 orders.
(1) aluminium silicate powder of formula ratio, rare earth, high titanium valve, Whitfield's ointment, sulphonated oil are added to the water, stir 20 minutes;
(2) aluminum nitride ceramic, hollow glass microballoon are joined in the solution of step (1), stir 30 minutes;
(3) finally tributyl phosphate is reentered in the solution of step (2) gained and stir;
(4) adjust pH to 6.5, barrelling.
Embodiment 2
Thermal insulation coatings, the weight percent of each component is as follows: 30% emulsion, 15% aluminum nitride ceramic, 20% hollow glass microballoon, 5% aluminium silicate powder, 0.01% rare earth, 4.99% high titanium valve, 0.5% Whitfield's ointment, 1.5% sulphonated oil, 22% water and 1% tributyl phosphate.
Wherein, the fineness of aluminum nitride ceramic is 300 orders.
Wherein, the fineness of hollow glass microballoon is 200 orders.
Wherein, the fineness of aluminium silicate powder, high titanium valve is 500 orders.
(1) aluminium silicate powder of formula ratio, rare earth, high titanium valve, Whitfield's ointment, sulphonated oil are added to the water, stir 30 minutes;
(2) aluminum nitride ceramic, hollow glass microballoon are joined in the solution of step (1), stir 40 minutes;
(3) finally tributyl phosphate is reentered in the solution of step (2) gained and stir;
(4) adjust pH to 7, barrelling.
Embodiment 3
Thermal insulation coatings, the weight percent of each component is as follows: 40% emulsion, 10% aluminum nitride ceramic, 10% hollow glass microballoon, 4.5% aluminium silicate powder, 0.1% rare earth, 4% high titanium valve, 1% Whitfield's ointment, 0.2% sulphonated oil, 30% water and 0.2% tributyl phosphate.
Wherein, the fineness of aluminum nitride ceramic is 250 orders.
Wherein, the fineness of hollow glass microballoon is 150 orders.
Wherein, the fineness of aluminium silicate powder, high titanium valve is 450 orders.
(1) aluminium silicate powder of formula ratio, rare earth, high titanium valve, Whitfield's ointment, sulphonated oil are added to the water, stir 25 minutes;
(2) aluminum nitride ceramic, hollow glass microballoon are joined in the solution of step (1), stir 35 minutes;
(3) finally tributyl phosphate is reentered in the solution of step (2) gained and stir;
(4) adjust pH to 7.5, barrelling.
Embodiment 4
Thermal insulation coatings, the weight percent of each component is as follows: 40% emulsion, 20% aluminum nitride ceramic, 20% hollow glass microballoon, 4.5% aluminium silicate powder, 0.1% rare earth, 4% high titanium valve, 1% Whitfield's ointment, 0.2% sulphonated oil, 10% water and 0.2% tributyl phosphate.
Wherein, the fineness of aluminum nitride ceramic is 300 orders.
Wherein, the fineness of hollow glass microballoon is 100 orders.
Wherein, the fineness of aluminium silicate powder, high titanium valve is 470 orders.
(1) aluminium silicate powder of formula ratio, rare earth, high titanium valve, Whitfield's ointment, sulphonated oil are added to the water, stir 30 minutes;
(2) aluminum nitride ceramic, hollow glass microballoon are joined in the solution of step (1), stir 30 minutes;
(3) finally tributyl phosphate is reentered in the solution of step (2) gained and stir;
(4) adjust pH to 7, barrelling.
Claims (5)
1. a special thermal insulation coatings is characterized in that it comprises the component of following weight percent: 30 ~ 40% emulsion, 10 ~ 20% aluminum nitride ceramic, 10 ~ 20% hollow glass microballoon, 2 ~ 5% aluminium silicate powder, 0.01 ~ 0.2% rare earth, 1 ~ 5% high titanium valve, 0.5 ~ 1% Whitfield's ointment, 0.2 ~ 1% sulphonated oil, 10 ~ 30% water and 0.2 ~ 1% tributyl phosphate.
2. special thermal insulation coatings according to claim 1, is characterized in that, the fineness of described aluminum nitride ceramic is 200 ~ 300 orders.
3. according to special thermal insulation coatings claimed in claim 1, it is characterized in that, the fineness of described hollow glass microballoon is 100 ~ 200 orders.
4. special thermal insulation coatings according to claim 1, is characterized in that, the fineness of described aluminium silicate powder, high titanium valve is 400 ~ 500 orders.
5. manufacture the method for special thermal insulation coatings claimed in claim 1, it is characterized in that it comprises following step: (1) is added to the water the aluminium silicate powder of formula ratio, rare earth, high titanium valve, Whitfield's ointment, sulphonated oil, stirs 20 ~ 30 minutes; (2) aluminum nitride ceramic, hollow glass microballoon are joined in the solution of step (1), stir 30 ~ 40 minutes; (3) finally tributyl phosphate is reentered in the solution of step (2) gained and stir; (4) adjust pH to 6.5 ~ 7.5.
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CN 201310392066 CN103450806A (en) | 2013-09-03 | 2013-09-03 | Special heat insulation coating and preparation method thereof |
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CN 201310392066 CN103450806A (en) | 2013-09-03 | 2013-09-03 | Special heat insulation coating and preparation method thereof |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109294288A (en) * | 2018-08-31 | 2019-02-01 | 佛山市高明区生产力促进中心 | A kind of modified heat preserving ceramic coating |
-
2013
- 2013-09-03 CN CN 201310392066 patent/CN103450806A/en active Pending
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109294288A (en) * | 2018-08-31 | 2019-02-01 | 佛山市高明区生产力促进中心 | A kind of modified heat preserving ceramic coating |
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Application publication date: 20131218 |
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