CN104692747A - Energy-saving environment-friendly inorganic building coating - Google Patents

Energy-saving environment-friendly inorganic building coating Download PDF

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Publication number
CN104692747A
CN104692747A CN201510046388.3A CN201510046388A CN104692747A CN 104692747 A CN104692747 A CN 104692747A CN 201510046388 A CN201510046388 A CN 201510046388A CN 104692747 A CN104692747 A CN 104692747A
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energy
environment
conserving
architectural coatings
coatings according
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CN201510046388.3A
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CN104692747B (en
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王舒
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Austrian King Building Mstar Technology Ltd
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王舒
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Abstract

The invention discloses an energy-saving environment-friendly inorganic building coating. The energy-saving environment-friendly inorganic building coating is characterized by being prepared from the following raw materials in percentage by weight: 20-35% of ceramsite, 8-12% of white cement, 11-17% of high alumina cement, 26-32% of quartz sand, 16-28% of calcium carbonate, 1.8-3% of vinyl acetate and ethylene copolymer latex powder, 0.25-0.29% of lignocellulose, 0.2-0.25% of methyl cellulose ether, 0.1-0.15% of hydrophobic organosilicone powder and 1-5% of an inorganic iron oxide pigment. The energy-saving environment-friendly inorganic building coating disclosed by the invention is a novel facing material, is prepared from ceramsite, has the advantages of resisting acids, alkalis, high temperature, low temperature, water and fire, is friendly to ecological environment, can be widely used for decorating inner and outer walls of buildings and is wide in color change range and abundant in appearance design. The energy-saving environment-friendly inorganic building coating is a powdery material which is prepared by physically mixing inorganic cementitious materials, additives and main components in a certain proportion and can be widely applied to the wall surfaces of various buildings.

Description

A kind of energy-conserving and environment-protective inorganic architectural coatings
Technical field
The present invention relates to a kind of inorganic building coats, be related specifically to and be a kind ofly applicable to lower or interval energy-conserving and environment-protective inorganic architectural coatings building inside and outside wall being played to decoration function of higher temperatures.
Background technology
Paint finishing can bond very well with body material in body surface and form the material of complete and tough and tensile protective membrane, is called coating.Coating and paint are identical concepts.Paint is people's custom titles used for a long time, after introducing China, just utilizes in building trade always.The effect of coating may be summarized to be three aspects: provide protection, decoration function, specific function effect.The general composition of coating: comprise filmogen, color stuffing, solvent, auxiliary agent.Defencive function refers to architecture protection thing not by the impact of environment and the function of destruction.The content that different types of protected body requires defencive function is also different.As just very large in the indoor index difference with reaching required by outdoor application.Some buildingss to mildew-resistant, fire prevention, heat insulating, corrosion-resistant etc. have particular requirement.Livability improves function mainly for indoor application, contributes to the function improving living environment exactly, as effect and classification, the antisweat etc. of sound-proofing, sound absorbing coating.
Coating act as decoration and protection, protects by the surface being coated with jewelry, prevents the erosion of the light, oxygen, chemical substance, solvent etc. from the external world, improve the work-ing life of coated thing; Paint finishing material surface, changes its color, decorative pattern, gloss, texture etc., improves the aesthetic value of object.
At present, protection of the environment is more and more paid attention in countries in the world, has developed many recovery technologies, industrial waste has been applied in building and goes, and namely the environmental protection and saving energy creates economic benefit, can enrich building material market again.Discarded polystyrene foam (CEPS) stable chemical performance, not perishable, great pollution is created to environment.Meanwhile, it is again the good light material of heat-insulating property.Using the light aggregate concrete that it is made as concrete light skeletal, density is low, thermal conductivity is little, sound insulation, and cost is low.Oneself is used widely abroad, especially at America & Canada, uses EPS light aggregate concrete except building villa, commercial building etc., also has application in fields such as the backfill of road traffic road surface and levelling, antifreeze roadbeds.Because its density is little, available its builds floating marine structure.The major advantage of this coating is that thermal conductivity is little, and load intensity is large, and main drawback is that color variation range is little, and moulding is poor, and range of application is less.
Summary of the invention
The object of the invention is to for deficiency of the prior art, provide a kind of energy-conserving and environment-protective inorganic architectural coatings, color variation range is wide, and moulding is enriched, and can be widely used in various construction wall surface.
For solving the problems of the technologies described above, the technical solution used in the present invention is: a kind of energy-conserving and environment-protective inorganic architectural coatings, its innovative point is: comprise following raw material composition by weight percentage: ceramsite sand 20%-35%, white cement 8%-12%, high-alumina cement 11%-17%, quartz sand 26%-32%, calcium carbonate 16%-28%, vinyl acetate-ethylene copolymer latex powder 1.8%-3%, lignocellulose 0.25%-0.29%, methyl cellulose ether 0.2%-0.25%, organosilicon hydrophobic powder 0.1%-0.15% and ferric oxide series inorganic pigment 1%-5%.
Further, comprise following raw material composition by weight percentage: ceramsite sand 25%-26%, white cement 9%-10%, high-alumina cement 13%-16%, quartz sand 27%-31%, calcium carbonate 17%-26%, vinyl acetate-ethylene copolymer latex powder 1.9%-2.6%, lignocellulose 0.25%-0.28%, methyl cellulose ether 0.20%-0.24%, organosilicon hydrophobic powder 0.1%-0.14% and ferric oxide series inorganic pigment 1%-3%.
Further, comprise following raw material composition by weight percentage: ceramsite sand 25%, white cement 9%, high-alumina cement 15%, quartz sand 27%, calcium carbonate 17%, vinyl acetate-ethylene copolymer latex powder 1.9%, lignocellulose 0.25%, methyl cellulose ether 0.20%, organosilicon hydrophobic powder 0.1% and ferric oxide series inorganic pigment 1%.
Further, described ceramsite sand is particle order number is 20-120 object ceramsite sand.
Further, described white cement is more than 42.5 grades white cements.
Further, described quartz sand is particle order number is 20-120 object quartz sand.
Further, described calcium carbonate is particle order number is 200-300 object calcium carbonate powders.
Further, described methyl cellulose ether to be viscosity be 150,000 methyl cellulose ether.
Further, the aluminium content of described high-alumina cement is more than 50%.
Further, described ferric oxide series inorganic pigment is red iron oxide or iron oxide black or iron oxide blue.
Beneficial effect of the present invention is as follows:
(1) energy-conserving and environment-protective inorganic architectural coatings of the present invention is a kind of novel facing dry powder material, have employed ceramsite sand, there is the advantage of acidproof, alkaline-resisting, high temperature resistant, low temperature resistant, waterproof, fire prevention, ecological, environmental protective, building inside and outside wall coating decoration can be widely used in; And color variation range is wide, moulding is enriched, and is carried out a kind of dusty material of physical mixed by inorganic coagulation material, additive and major ingredient by a certain percentage, can be widely used in various construction wall surface.
(2) energy-conserving and environment-protective inorganic architectural coatings of the present invention compares the finishing material that current market uses, coated material of the present invention be inorganic materials, with the building same life-span, there is the advantages such as safe, acidproof, alkaline-resisting, high temperature resistant, low temperature resistant, waterproof, fire prevention, environmental protection.
(3) energy-conserving and environment-protective inorganic architectural coatings of the present invention, coating operation thickness is when about 1.5mm, because food ingredient material own belongs to mineral-type, so can combine together with bottom, there is excellent weathering resistance, after Highrise buildings decoration, there will not be full of cracks, peeling, peel off, the catabiosis such as cracking.
(4) energy-conserving and environment-protective building coats of the present invention, the ceramsite sand and the quartz sand that have employed reasonable granularity are major ingredient, be equipped with a small amount of additive, be used in all advantages that metope has present city finishing coat, working strength and stability can be ensured, facing can not fade for a long time, has stronger weathering resistance and self-cleaning property; Meanwhile, experiment proves adding of a small amount of additive, can not cause environmental pollution, environmental protection.
(5) energy-conserving and environment-protective building coats of the present invention, specifically select that particle order number is 20-120 object ceramsite sand, 42.5 grades of white cements, particle order number are 20-120 object quartz sand, particle order number is 200-300 object calcium carbonate powders, viscosity is the methyl cellulose ether of 150,000, effectively can ensure that coating reaches best working strength and stability, and raw material dosage is suitable, avoid waste.
Embodiment
Below in conjunction with specific embodiment, technical scheme of the present invention is elaborated.
Embodiment 1
A kind of composition and respective parts by weight of energy saving building coating are as shown in table 1 below:
Table 1
Material name Weight
Ceramsite sand 25
White cement 9
High-alumina cement 15
Calcium carbonate 17
Quartz sand 30.55(balance is to 100)
Rubber powder 1.9
Lignocellulose 0.25
Ether of cellulose 0.2
Hydrophober 0.1
Red iron oxide 1
The preparation method of above building coats is: according to proportioning raw materials, various raw material is added mixing and stirring successively, packed for standby use.
Wherein, iron oxide pigment producer is Baeyer; Redispersible latex powder producer is that the U.S. steps figure, ceramsite sand is particle order number is 20-120 object ceramsite sand, white cement is more than 42.5 grades white cements, sand is particle order number is 20-120 object quartz sand, calcium carbonate is particle order number is 200-300 object calcium carbonate powders, methyl cellulose ether to be viscosity be 150,000 methyl cellulose ether, the aluminium content of high-alumina cement is 50%.
Paint coatings: add the water of 22% in agitation vat, add the raw material stirred in previous step again, stir with electric hammer, quietly can to use after 5-10 minute, evenly be coated to exterior wall surface by instruments such as spatulas, the building coats of dry solidification has good ageing-resistant performance.Its performance index are as shown in table 2 below:
Table 2
Note: the performance test methods in table is with reference to JC/T 1024-2007 wall facing mortar.
Embodiment 2
A kind of composition and parts by weight of energy saving building coating are as shown in table 3 below:
Table 3
Material name Weight
Ceramsite sand 26
White cement 10
High-alumina cement 14
Calcium carbonate 20
Quartz sand 26.36(balance is to 100)
Rubber powder 2
Lignocellulose 0.28
Ether of cellulose 0.25
Hydrophober 0.11
Iron oxide black 1
The preparation method of above building coats is: according to proportioning raw materials, various raw material is added mixing and stirring successively, packed for standby use.
Wherein, iron oxide pigment producer is Baeyer; Redispersible latex powder producer is that the U.S. steps figure, ceramsite sand is particle order number is 20-120 object ceramsite sand, white cement is more than 42.5 grades white cements, sand is particle order number is 20-120 object quartz sand, calcium carbonate is particle order number is 200-300 object calcium carbonate powders, methyl cellulose ether to be viscosity be 150,000 methyl cellulose ether, the aluminium content of high-alumina cement is 60%.
Paint coatings: add the water of 22% in agitation vat, add the raw material stirred in previous step again, stir with electric hammer, quietly can to use after 5-10 minute, evenly be coated to exterior wall surface by instruments such as spatulas, the building coats of dry solidification has good ageing-resistant performance.Its performance index are as shown in table 4 below:
Table 4
Note: the performance test methods in table is with reference to JC/T 1024-2007 wall facing mortar
Embodiment 3
A kind of composition and parts by weight of energy saving building coating are as shown in table 5 below:
Table 5
Material name Weight
Ceramsite sand 20
White cement 8
High-alumina cement 11
Calcium carbonate 26
Quartz sand 30.95(balance is to 100)
Rubber powder 2.5
Lignocellulose 0.25
Ether of cellulose 0.2
Hydrophober 0.1
Iron oxide blue 1
The preparation method of above building coats is: according to proportioning raw materials, various raw material is added mixing and stirring successively, packed for standby use.
Wherein, iron oxide pigment producer is Baeyer; Redispersible latex powder producer is that the U.S. steps figure, ceramsite sand is particle order number is 20-120 object ceramsite sand, white cement is more than 42.5 grades white cements, sand is particle order number is 20-120 object quartz sand, calcium carbonate is particle order number is 200-300 object calcium carbonate powders, methyl cellulose ether to be viscosity be 150,000 methyl cellulose ether, the aluminium content of high-alumina cement is 50%.
Paint coatings: add the water of 22% in agitation vat, the example raw material that enters to stir, stirs with electric hammer again, quietly can use after 5-10 minute, evenly be coated to exterior wall surface by instruments such as spatulas, the building coats of dry solidification has good ageing-resistant performance.Its performance index are as shown in table 6 below:
Table 6
Note: the performance test methods in table is with reference to JC/T 1024-2007 wall facing mortar.
More than show and describe ultimate principle of the present invention and principal character and advantage of the present invention.The technician of the industry should understand; the present invention is not restricted to the described embodiments; what describe in above-described embodiment and specification sheets just illustrates principle of the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements all fall in the claimed scope of the invention.Application claims protection domain is defined by appending claims and equivalent thereof.

Claims (10)

1. an energy-conserving and environment-protective inorganic architectural coatings, it is characterized in that: the raw material composition comprising following weight percent meter: ceramsite sand 20%-35%, white cement 8%-12%, high-alumina cement 11%-17%, quartz sand 26%-32%, calcium carbonate 16%-28%, vinyl acetate-ethylene copolymer latex powder 1.8%-3%, lignocellulose 0.25%-0.29%, methyl cellulose ether 0.2%-0.25%, organosilicon hydrophobic powder 0.1%-0.15% and ferric oxide series inorganic pigment 1%-5%.
2. energy-conserving and environment-protective inorganic architectural coatings according to claim 1, it is characterized in that: comprise following raw material composition by weight percentage: ceramsite sand 25%-26%, white cement 9%-10%, high-alumina cement 13%-16%, quartz sand 27%-31%, calcium carbonate 17%-26%, vinyl acetate-ethylene copolymer latex powder 1.9%-2.6%, lignocellulose 0.25%-0.28%, methyl cellulose ether 0.20%-0.24%, organosilicon hydrophobic powder 0.1%-0.14% and ferric oxide series inorganic pigment 1%-3%.
3. energy-conserving and environment-protective inorganic architectural coatings according to claim 1, it is characterized in that: comprise following raw material composition by weight percentage: ceramsite sand 25%, white cement 9%, high-alumina cement 15%, quartz sand 27%, calcium carbonate 17%, vinyl acetate-ethylene copolymer latex powder 1.9%, lignocellulose 0.25%, methyl cellulose ether 0.20%, organosilicon hydrophobic powder 0.1% and ferric oxide series inorganic pigment 1%.
4. energy-conserving and environment-protective inorganic architectural coatings according to claim 1, is characterized in that: described ceramsite sand is particle order number is 20-120 object ceramsite sand.
5. energy-conserving and environment-protective inorganic architectural coatings according to claim 1, is characterized in that: described white cement is more than 42.5 grades white cements.
6. energy-conserving and environment-protective inorganic architectural coatings according to claim 1, is characterized in that: described quartz sand is particle order number is 20-120 object quartz sand.
7. energy-conserving and environment-protective inorganic architectural coatings according to claim 1, is characterized in that: described calcium carbonate is particle order number is 200-300 object calcium carbonate powders.
8. energy-conserving and environment-protective inorganic architectural coatings according to claim 1, is characterized in that: described methyl cellulose ether to be viscosity be 150,000 methyl cellulose ether.
9. energy-conserving and environment-protective inorganic architectural coatings according to claim 1, is characterized in that: the aluminium content of described high-alumina cement is more than 50%.
10. energy-conserving and environment-protective inorganic architectural coatings according to claim 1, is characterized in that: described ferric oxide series inorganic pigment is red iron oxide or iron oxide black or iron oxide blue.
CN201510046388.3A 2015-01-29 2015-01-29 A kind of energy-conserving and environment-protective inorganic architectural coatings Active CN104692747B (en)

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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105038346A (en) * 2015-07-11 2015-11-11 安徽欧尚建材有限公司 Special antibacterial and corrosion-resistant heat insulation coating for ceramsite
CN105038419A (en) * 2015-07-11 2015-11-11 安徽欧尚建材有限公司 Paint assisting in reducing building weight
CN107285715A (en) * 2017-08-03 2017-10-24 安徽真信涂料有限公司 A kind of energy-conserving and environment-protective building coating
CN107718265A (en) * 2016-08-11 2018-02-23 南通奥王节能建筑材料科技发展有限公司 A kind of sound-absorbing integrated board and preparation method thereof
CN107840621A (en) * 2017-11-18 2018-03-27 安徽省神洲建材科技有限公司 A kind of preparation method of exterior wall finish coating difficult for drop-off
CN110357509A (en) * 2019-08-09 2019-10-22 承德泰斯特新材料科技有限公司 A kind of novel environment friendly scumbling cement base ornament materials plaster
CN110981310A (en) * 2019-12-23 2020-04-10 山西大学 Light heat-preservation real stone paint coating and preparation method thereof
CN112409019A (en) * 2020-11-11 2021-02-26 中国地质大学(北京) Low-water-absorption solid waste foam concrete with waterproof layer structure and preparation method thereof

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101948278A (en) * 2010-09-08 2011-01-19 赵明 Color mortar coating
CN102181205A (en) * 2011-03-31 2011-09-14 上海韵霓干粉建材有限公司 Dry-powder-polymer-based powder coating
CN104194506A (en) * 2014-09-17 2014-12-10 遵义市斌灏信息咨询有限公司 Polymer cement waterproof paint

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101948278A (en) * 2010-09-08 2011-01-19 赵明 Color mortar coating
CN102181205A (en) * 2011-03-31 2011-09-14 上海韵霓干粉建材有限公司 Dry-powder-polymer-based powder coating
CN104194506A (en) * 2014-09-17 2014-12-10 遵义市斌灏信息咨询有限公司 Polymer cement waterproof paint

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105038346A (en) * 2015-07-11 2015-11-11 安徽欧尚建材有限公司 Special antibacterial and corrosion-resistant heat insulation coating for ceramsite
CN105038419A (en) * 2015-07-11 2015-11-11 安徽欧尚建材有限公司 Paint assisting in reducing building weight
CN107718265A (en) * 2016-08-11 2018-02-23 南通奥王节能建筑材料科技发展有限公司 A kind of sound-absorbing integrated board and preparation method thereof
CN107285715A (en) * 2017-08-03 2017-10-24 安徽真信涂料有限公司 A kind of energy-conserving and environment-protective building coating
CN107840621A (en) * 2017-11-18 2018-03-27 安徽省神洲建材科技有限公司 A kind of preparation method of exterior wall finish coating difficult for drop-off
CN110357509A (en) * 2019-08-09 2019-10-22 承德泰斯特新材料科技有限公司 A kind of novel environment friendly scumbling cement base ornament materials plaster
CN110981310A (en) * 2019-12-23 2020-04-10 山西大学 Light heat-preservation real stone paint coating and preparation method thereof
CN110981310B (en) * 2019-12-23 2022-01-18 山西大学 Light heat-preservation real stone paint coating and preparation method thereof
CN112409019A (en) * 2020-11-11 2021-02-26 中国地质大学(北京) Low-water-absorption solid waste foam concrete with waterproof layer structure and preparation method thereof
CN112409019B (en) * 2020-11-11 2021-12-28 中国地质大学(北京) Low-water-absorption solid waste foam concrete with waterproof layer structure and preparation method thereof

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Effective date of registration: 20180608

Address after: 226012 88 Nantong Donghai Road, Tongzhou Bay and Jianghai joint development demonstration zone, Jiangsu

Patentee after: Austrian King Building Mstar Technology Ltd

Address before: 226500 Rugao, Nantong, Jiangsu, 106, Room 201, Bai Hua Yuan, town.

Patentee before: Wang Shu