CN104017413B - A kind of interior wall heat preservation putty and using method thereof - Google Patents

A kind of interior wall heat preservation putty and using method thereof Download PDF

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CN104017413B
CN104017413B CN201410185809.6A CN201410185809A CN104017413B CN 104017413 B CN104017413 B CN 104017413B CN 201410185809 A CN201410185809 A CN 201410185809A CN 104017413 B CN104017413 B CN 104017413B
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component
heat preservation
interior
preservation putty
putty
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CN201410185809.6A
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CN104017413A (en
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傅雁
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苏州弗克新型建材有限公司
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Abstract

The invention discloses a kind of interior wall heat preservation putty, it is characterised in that in mass, it is prepared and at least contains following components in raw material: component 1, containing the solution of polyhydroxy macromolecular compound, is 1 part with the quality of wherein polyhydroxy macromolecular compound;Component 2, isocyanates foaming cross-linking agent, 0.1~1 part;Component 3, insulation filler, 10~20 parts;Component 4, Ludox, 0.5~2 part;Component 5, inorganic powder materials, 0.1~2 part;Including the water in the solution containing polyhydroxy macromolecular compound and Ludox, total water content, 8~16 parts.By each component mix homogeneously, forming paste, by plastering construction technique, the paste of acquisition is spread upon inner wall of building surface, smearing thickness is 3~20 millimeters, forms the bubble of distribution, and makes component 1 crosslinking hardening, form heat preservation putty layer in smear layer.The interior wall heat preservation putty of the present invention has low unit weight and lower thermal conductivity;Foaming polymer material both used as binding agent, has again phase-change accumulation energy effect, thus improves the heat-insulating property of putty.

Description

A kind of interior wall heat preservation putty and using method thereof

Technical field

The present invention relates to a kind of construction material, be specifically related to a kind of putty for building, there is the heat preservation putty for inner wall of building of function of heat insulation the most simultaneously.

Background technology

The development of heat preserving and insulating material develops into background with building energy conservation.In ever-increasing total energy consumption; building energy consumption accounts for 11%~25%; developed country began to focus on building energy conservation from 1973 after energy crisis; formulate relevant building energy-saving standard successively and constantly revised perfect; and state's heat insulating material for external industry has had the longest history, using heat preserving and insulating material is the energy-conservation main measure of Foreign Architecture.China's Building Energy-saving Work started to start from early 1990s, relatively fewer for the heat preserving and insulating material of building energy conservation, through vicennial development, form production and the technical system of the insulation material that variety protection is complete, begin to take shape, but still had the biggest gap with industrially developed country.Owing to China's great majority building is provided without heat insulation measure, construction wall structural thermal insulation heat-proof quality is the most relatively low, as a example by tier building, the heat transfer coefficient of exterior wall and roofing is 3~4 times of the close developed country of weather conditions, the unit construction area power consumption of exterior wall is 4~5 times, roof 2.5~5.5 times, exterior window 1.5~2.2 times, door and window air permeability to exceed 3~6 times, and the total heat transfer of China's construction unit area is 2~5 times of the close developed country of weather conditions.

By the end of the year 2005, urban and urual areas of whole country's construction area is 400 billion cubic meters, urban housing construction area 140.9 billion cubic meter, the wherein area of residence 89.1 billion cubic meter.These house great majority are the buildings of the eighties and the nineties, wherein reach only 2 billion cubic meters of energy saving igniter, only account for about 0.5%, and 99% broadly falls into high energy consumption building, even if in new building, more than 95% still falls within high energy consumption building.Therefore, Building Energy-saving is badly in need of solving, and providing excellent heat preserving and insulating material is the key solving building energy conservation.

At present, the building energy conservation means of domestic use mainly use fireproof heat insulation plate of outer wall, this type of sheet material there is the problem that the cohesive force between, fireproof heated board and substrate is poor, generally major part completes with rivet and bonding mode, the most aging formation stress concentration can cause adhesive force to reduce, even there is the possibility that comes off, the most dangerous for external wall of high-rise building, easily accidentally injure and pass by crowd;Two, energy consumption is bigger comparatively speaking;Three, it is difficult to construction on the whole, is especially apparent in higher floor construction;Four, service life is relatively short.It is therefore desirable to improve for deficiency.

On the other hand, putty is a kind of decoration type material of smooth surface of wall, is commonly used as the screed-coat of coating bottom during interior decoration.The putty used in prior art, usually cement, Gypsum Fibrosum, Pulvis Talci class, with building glue, cellulose ether etc. as adhesion agent, stirring, it is aquation type product, typically must be finished within a certain period of time after adding water.Meanwhile, this kind of putty the most only has decoration function, does not have heat preservation property.For substituting exposed wall thermal insulation plate, the industry starts to research and develop heat preservation putty.

Such as, Chinese invention patent application CN103602133A discloses a kind of Thermal insulation putty, including dry powder 380~420 parts, white cement 180~220 parts, polyvinyl alcohol glue 80~120 parts, triple superphosphate 80~120 parts, cenosphere 65~85 parts, mica powder 40~60 parts, hydroxyethylpropyl cellulose 25~35 parts, Pulvis Talci 20~30 parts, aluminium silicate powder 15~25 parts.The program is cement-based material, in order to ensure adhesion strength, has the cenosphere of insulation effect, mica powder addition few, and heat insulation effect is the best.In " research and development of one pack system heat-insulation and heat-preservation thickness matter putty for building " literary composition disclosed in " coatings industry " in January, 2013; disclose a kind of putty with heat-insulation and heat-preservation characteristic, consisting of, flyash compound cement 40%; 100 mesh glass beads 49%; 200 mesh glass beads 5.3%, Pulvis Talci 2%, polypropylene fibre 0.15%; stone sand 2.2%; early strength agent 0.8%, water-retaining agent 0.5%, glass bead inorganic agent 0.05%.Program glass bead addition is big, it is thus achieved that putty heat conductivity be 0.062W/ (mk), the effect of heat-insulation and heat-preservation can be played.But, this product is also cement-based material, prepares in conjunction with glass bead, and its adhesion strength is only 0.065MPa, the 0.25MPa specified far below JG/T298-2010 " architecture indoor putty " standard.Therefore, this product is difficult to actual application.

Therefore, if being provided that the putty material of non-cement class, it is thus achieved that more low thermal conductivity, more excellent heat-insulating property, meeting adhesion strength requirement simultaneously, favourable effect will be played for building heat preservation.

Summary of the invention

The goal of the invention of the present invention is to provide a kind of interior wall heat preservation putty possessing low thermal conductivity, low unit weight and meeting adhesion strength requirement, provides the using method of this interior wall heat preservation putty simultaneously.

To achieve the above object of the invention, the technical solution used in the present invention is: a kind of interior wall heat preservation putty, and in mass, it is prepared and at least contains following components in raw material:

Component 1, containing the solution of polyhydroxy macromolecular compound, is 1 part with the quality of wherein polyhydroxy macromolecular compound;

Component 2, isocyanates foaming cross-linking agent, 0.1~1 part;

Component 3, insulation filler, 10~20 parts;

Component 4, silicon sol solution, with the quality of wherein silicon dioxide be, 0.5~2 part;

Component 5, inorganic powder materials, 0.1~2 part;

Including containing the water in polyhydroxy macromolecular compound solution and in silicon sol solution, total water content is 8~16 parts.

Preferably technical scheme, described component 1 is poly-vinyl alcohol solution, and solid content is 8~20%.

The degree of polymerization of polyvinyl alcohol be 1500~5600(molecular weight be 6.6~250,000), alcoholysis degree is 75.0~99.9%.Preferably, the degree of polymerization of polyvinyl alcohol is 1600~3000.

Or, described component 1 is emulsion, polyvinyl acetate ethylene copolymerization emulsions or aqueous polyurethane emulsion selected from polyvinyl acetate emulsion, acrylic emulsion, vinegar third, and the solid content of emulsion is 35~55%.

In technique scheme, described component 2 is selected from 4,4 '-methyl diphenylene diisocyanate or toluene di-isocyanate(TDI).

One or more in floating bead, Vermiculitum, glass bead, ceramic microsphere, glass microsphere, mullite, perlite, meerschaum, silica gel or polymer microballoon of described component 3, fineness is 120~200 mesh.Component 3 uses the filler that lightweight, thermal conductivity are little, and the heat preserving and insulating material of acquisition can be made to have low heat conductivity and low unit weight.

In technique scheme, the silicon sol solution solid content of described component 4 is 20~40%.

Described component 5 can react the water-fast silicate of generation with Ludox, can use calcic, magnesium, the salt of zinc metal ion or hydroxide solids powder.Being chosen in particular from calcium carbonate, calcium sulfate, calcium hydroxide, zinc oxide, magnesium carbonate, magnesium sulfate, magnesium hydroxide, fineness is 120~200 mesh.

Further technical scheme, in mass, the fire retardant of 0~3 part can be added to improve the fire protecting performance of product further, one or more in magnesium oxide, aluminium oxide, lanthana, beryllium oxide, calcium oxide, zirconium oxide, carborundum, titanium carbide, ramet, boron nitride, silicon nitride, zirconium boride, titanium boride, hafnium boride, molybdenum disilicide, thorium sulfide or cerium sulphide of fire retardant, fineness is 120~200 mesh.By addO-on therapy 4, it is thus achieved that heat preserving and insulating material there is fire performance.

In prepared by reality, for adjusting the performance of product, can add various additive further, volume can be 0~0.5 part, and described additive is selected from the combination of one or more of polymerization inhibitor, waterproofing agent, preservative, water reducer, rheological agent, viscosity stabiliser.Other composition can also be added.As with surfactant change its workability, improve with water-retaining agent its moisture retention, improve with waterproofing agent its surface waterproofing performance, improve with early strength agent its early strength, modulate with pigment shades of colour, add Pulvis Talci to improve its application property etc..The interpolation of these components is the most within the scope of the present invention.These components can be such as:

Reinforcing agent: Calx, Gypsum Fibrosum, magnesia, waterglass;

Polymerization inhibitor:

Waterproofing agent: chloride salt (iron chloride), inorganic aluminum salt, sodium silicate class, wollastonite powder end, zirconium compounds, fatty acid and its esters, silicone (sodium methyl silicate, methyl silicon sodium alcoholate, fluorine sodium silanolate, ethyl sodium silanolate, poly-ethyl hydroxy siloxanes), paraffin, asphalt, rubber and water-soluble resin emulsion;Preservative: isothiazolinone, benzimidazole, substituted arene class, organic bromine class, organic amine, piperazine triazines, formaldehydes, sulfites and nitrites;

Water reducer: polycarboxylate water-reducer, naphthalene sulfonate water reducer;

Rheological agent: aerosil, bentonite, castor oil hydrogenated, polyacrylate;Viscosity stabiliser: xanthan polymer, biopolymer, acrylic amide modified polyvinyl alcohol, guar gum, carboxymethyl cellulose, hydroxyethyl cellulose, carboxymethyl galactomannan, ethoxy galactomannan, polyacrylamide, polyacrylic, lignosulfonates, stearic acid, OP-10, silicone oil, tween 80 (T-80), dodecylbenzene sodium sulfonate.

During preparation, component 3,4,5 can be added mix homogeneously in component 1, add component 2 mix homogeneously, component 1 and component 2 reaction and release gas, form the heat preserving and insulating material that microbubble is distributed.Wherein, the macromolecular compound in component 1, as the crosslinked foaming firming agent of component 1, can be cross-linked into porosu solid, and make insulation material produce mechanical strength by component 2.When component 1 and component 2 are reacted, release carbon dioxide, insulation material is formed a large amount of micro-bubble, the insulation filler of component 3 is wrapped up meanwhile, after hardening, form porous insulation material.

In the chemical reaction of the present invention, the molecular weight of polyhydroxy macromolecular compound (such as polyvinyl alcohol) is relatively big and has more hydroxyl, provides substantial amounts of active reaction point for isocyanates cross-linking agent.Isocyanate ester compound as cross-linking agent serves two pivotal roles in the reaction: on the one hand as cross-linking agent, make polyhydroxy macromolecular compound be polymerized;On the other hand react as foaming agent and water and generate unstable intermediate product, be further decomposed into organic amine and carbon dioxide.The carbon dioxide produced by above reaction forms micro-pore, is evenly distributed in system, and the dried hollow structure formed and microbubble greatly reduce heat conductivity so that it is become the insulation material of excellent performance.Meanwhile, the whole product that is incorporated as of foaming cross-linking agent provides main adhesion strength.

If adding other component, the additives such as fire retardant, polymerization inhibitor, waterproofing agent, reinforcing agent, preservative, water reducer, rheological agent, viscosity stabiliser can be blended in component 1 in the lump, such as, component 3,4,5 and additive are added mix homogeneously in component 1, add component 2 mix homogeneously, gas is released in component 1 and component 2 reaction, forms the heat preserving and insulating material that microbubble is distributed.

During as product, the product of double-component can be fabricated to, it is possible to be fabricated to the product of three components.

Wherein double-component product is first component 1,3,4,5 and additive mix homogeneously to be packaged into component A, and component 2 is individually packaged into component B, joins in component A by component B, mix homogeneously during use.Additive can be put in component A.

Three component product are that component 1 is individually packaged into component A, and component 2 is individually packaged into component B, and component 3,4,5 and other dust diluents or additive are packaged into component C the most afterwards, first component B is joined in component A during use, mix homogeneously, then adds component C, mix homogeneously.Additive can be put in component A.

The using method of above-mentioned interior wall heat preservation putty is, by each component mix homogeneously, form paste, the paste of acquisition is spread upon building inner, external wall surface by plastering construction technique, smearing thickness is 3~20 millimeters, component 1 and component 2 reaction are released carbon dioxide and are formed the bubble of distribution in smear layer, and make component 1 crosslinking hardening, form heat preservation putty layer.After hardening, the heat conductivity of heat preservation putty is less than 0.1 (W/m.k), and unit weight is less than 400 (kg/m3)。

Owing to technique scheme is used, the present invention compared with prior art has the advantage that

1, the invention provides a kind of multi-component interior wall heat preservation putty, by chemical blowing can produce a large amount of uniformly and the closing of exquisiteness declines pore, the open pore simultaneously formed between high molecular crosslink material and insulation filler after dry solidification is that material provides can respiratory;It is equipped with substantial amounts of closure hollow insulation filler again, it is ensured that the low unit weight of material and lower thermal conductivity.

2, enclosed type microbubble is defined due to component 1 with component 2 reaction, and component 3 is incubated the physical property sealed porosity that filler has, make material have ultralow unit weight and heat conductivity, make material have high heat-proof quality, enhanced water resistance and the main feature of freeze-thawing resistant cycle performance.

3, generating silicate after reacting due to component 4 and component 5 and be dehydrated, this silicate has certain mechanical strength, can improve the intensity of heat preservation putty.

4, owing to this product preparation process not using, does not produce harmful material, thus it is a kind of environmentally friendly product.

5, in the present invention, phase-changing energy storage material is made up of two parts, one is mineral porous materials, and two is foaming polymer material, due to not cement, on the one hand adhesion strength is high, on the other hand, foaming polymer material both used as binding agent, had again phase-change accumulation energy effect, thus improve the heat-insulating property of putty, possess creativeness.

Accompanying drawing explanation

Fig. 1 is the scanning electron microscope (SEM) photograph of the product of embodiment one.

Detailed description of the invention

Below in conjunction with the accompanying drawings and embodiment the invention will be further described:

Embodiment one: the preparation of heat preservation putty:

Each component is as follows:

Component A: polyvinyl alcohol water solution (solid content 10%): 10 parts (i.e. solid 1 part, 9 parts of water);

B component: foaming cross-linking agent 4,4-methyl diphenylene diisocyanate: 0.25 part;

C component: 200 mesh floating bead 12.5 parts, 120 mesh perlites: 1.25 parts;

D component: Ludox (30% solid content): 2.5 parts (i.e. solid 0.75 part, 1.75 parts of water);

E component: calcium carbonate: 0.5 part

Using method: liquid material component A is weighed with component B and is pre-mixed by job site in proportion, utilizes mechanical agitation uniformly.Component C, D, E being poured slowly in agitated kettle the most while stirring, during mix, use rotating speed to be not less than the homogenizer stirring of 1000r/min, high-speed stirred 5min obtains heat preservation putty.Spreading upon inner wall of building surface by plastering construction technique, smearing thickness is 3~20 millimeters, and component A and B component reaction are released carbon dioxide and formed the bubble of distribution in smear layer, and make component A crosslinking hardening, form heat preservation putty layer.

Fig. 1 show the scanning electron microscope (SEM) photograph of the heat preservation putty of acquisition, and wherein middle dark porous part is A, the high-molecular porous foamed matrix materials containing a large amount of microbubbles of B component reaction generation, and ball is floating bead filler, for hole of breathing freely at black.

The performance indications of heat preservation putty are as shown in the table: Detection project Standard-required Embodiment one Embodiment two Condition in container Without caking, uniformly Without caking, uniformly Without caking, uniformly Application property Scratch accessible Scratch accessible Scratch accessible Adhesion strength MPa >0.25 0.32 0.38 Heat conductivity W/m.k ≤0.06 0.051 0.048 Unit weight kg/m3 ≤380 360 350 Low tempertaure storage stability -5 DEG C of freezing 4h are unchanged, and blade coating is without difficulty Meet Meet

Embodiment two: the making of heat preservation putty

Each composition by weight is as follows:

Component A: polyvinyl acetate emulsion (solid content 10%): 10 parts (i.e. solid 1 part, 9 parts of water);

B component: foaming cross-linking agent 4,4-methyl diphenylene diisocyanate: 0.5 part;

C component: 200 mesh floating bead 6.25 parts, 200 mesh Vermiculitums 5.75 parts, 120 mesh perlites: 2 parts;

D component: Ludox (30% solid content) 3 parts (i.e. containing solid 0.9 part, 2.1 parts of water).

E component: calcium carbonate: 1 part

Using method: liquid material component A is weighed with component B and reinforcing agent and is pre-mixed by job site in proportion, utilizes mechanical agitation uniformly.The most while stirring component C, D, E are poured slowly in agitated kettle, during mix, rotating speed is used to be not less than the homogenizer stirring of 1000r/min, high-speed stirred 5min obtains heat preservation putty, the heat preservation putty higher than the intensity of embodiment one (adhesion strength is 0.35MPa) of the present embodiment configuration, heat-insulating property is more preferably (heat conductivity is 0.041W/m.k).

Embodiment three: a kind of heat preservation putty, each composition by weight is as follows:

Component A: polyvinyl acetate emulsion (solid content 20%): 5 parts (i.e. solid 1 part, 4 parts of water)

B component: foaming cross-linking agent 4,4-methyl diphenylene diisocyanate: 0.5 part

C component: 200 mesh floating bead 10.5 parts, 120 mesh magnesium oxide: 0.85 part.

D component: Ludox (30% solid content) 3 parts (i.e. containing solid 0.9 part, 2.1 parts of water).

E component: calcium carbonate: 1 part

Add polycarboxylate water-reducer (40% solid content) 0.05 part.

Using method: liquid material component A is weighed with component B and water reducer and is pre-mixed by job site in proportion, utilizes mechanical agitation uniformly.Component C, D, E being poured slowly in agitated kettle the most while stirring, during mix, use rotating speed to be not less than the homogenizer stirring of 1000r/min, high-speed stirred 5min obtains heat preservation putty.Intensity: 0.3MPa, heat conductivity 0.06W/m.k.

Embodiment four: a kind of heat preservation putty, each composition by weight is as follows:

Component A: polyvinyl acetate emulsion (solid content 15%): 6.67 parts (i.e. solid 1 part, 5.67 parts of water)

B component: foaming cross-linking agent toluene di-isocyanate(TDI): 0.44 part

C component: 200 mesh floating bead 13.3 parts, 120 mesh aluminium oxidies: 0.44 part.

D component: Ludox (30% solid content) 5 parts (i.e. containing solid 1.5 parts, 3.5 parts of water).

E component: calcium carbonate: 1 part

Add waterproofing agent of organosilicon 0.05 part.

Using method: liquid material component A is weighed with component B and waterproofing agent and is pre-mixed by job site in proportion, utilizes mechanical agitation uniformly.Component C, D, E being poured slowly in agitated kettle the most while stirring, during mix, use rotating speed to be not less than the homogenizer stirring of 1000r/min, high-speed stirred 5min obtains heat preservation putty.

Embodiment five: a kind of heat preservation putty, each composition by weight is as follows:

Component A: EVA copolymer emulsion (solid content 20%): 5 parts (i.e. solid 1 part, 4 parts of water)

B component: foaming cross-linking agent toluene di-isocyanate(TDI): 0.45 part

C component: 200 mesh floating bead 16.25 parts.

D component: Ludox (30% solid content) 6 parts (i.e. containing solid 1.8 parts, 4.2 parts of water).

E component: calcium carbonate: 1.5 parts

Using method: liquid material component A is weighed with component B and is pre-mixed by job site in proportion, utilizes mechanical agitation uniformly.Component C, D, E being poured slowly in agitated kettle the most while stirring, during mix, use rotating speed to be not less than the homogenizer stirring of 1000r/min, high-speed stirred 5min obtains heat preservation putty.

Embodiment six: a kind of heat preservation putty, each composition by weight is as follows:

Component A: EVA copolymer emulsion (solid content 30%): 3.33 parts (i.e. solid 1 part, 2.33 parts of water)

B component: foaming cross-linking agent toluene di-isocyanate(TDI): 0.5 part

C component: 200 mesh floating bead 10 parts, 120 mesh magnesium oxide: 0.83 part

D component: Ludox (30% solid content) 6 parts (i.e. containing solid 1.8 parts, 4.2 parts of water).

E component: calcium carbonate: 1.2 parts

Separately add water 3.33 parts (water amounts to 9.86 parts).

Using method: liquid material component A is weighed with component B and is pre-mixed by job site in proportion, utilizes mechanical agitation uniformly.Component C, D, E being poured slowly in agitated kettle the most while stirring, during mix, use rotating speed to be not less than the homogenizer stirring of 1000r/min, high-speed stirred 5min obtains heat preservation putty.

Claims (9)

1. an interior wall heat preservation putty, it is characterised in that in mass, it prepares and at least contains following components in raw material:
Component 1, containing the solution of polyhydroxy macromolecular compound, is 1 part with the quality of wherein polyhydroxy macromolecular compound;
Component 2, isocyanates foaming cross-linking agent, 0.1~1 part;
Component 3, insulation filler, 10~20 parts;
Component 4, silicon sol solution, with the quality of wherein silicon dioxide be, 0.5~2 part;
Component 5, inorganic powder materials, 0.1~2 part;Described component 5 is selected from calcium hydroxide, magnesium hydroxide, and fineness is 120~200 mesh;
Including containing the water in polyhydroxy macromolecular compound solution and in silicon sol solution, total water content is 8~16 parts;
By each component mix homogeneously, form paste, the paste of acquisition is spread upon inner wall of building surface by plastering construction technique, smearing thickness is 3~20 millimeters, component 1 and component 2 reaction are released carbon dioxide and are formed the bubble of distribution in smear layer, and making component 1 be cross-linked into organic polymer, component 4 and component 5 reaction generate silicate, form heat preservation putty layer together.
Interior wall heat preservation putty the most according to claim 1, it is characterised in that: described component 1 is poly-vinyl alcohol solution, and solid content is 6~15%.
Interior wall heat preservation putty the most according to claim 2, it is characterised in that: the degree of polymerization of polyvinyl alcohol is 1500~5600, and alcoholysis degree is 75.0~99.9%.
Interior wall heat preservation putty the most according to claim 3, it is characterised in that: the degree of polymerization of polyvinyl alcohol is 1600~3000.
Interior wall heat preservation putty the most according to claim 1, it is characterized in that: described component 1 is emulsion, polyvinyl acetate ethylene copolymerization emulsions or aqueous polyurethane emulsion selected from polyvinyl acetate emulsion, acrylic emulsion, vinegar third, and the solid content of emulsion is 35~55%;Described component 2 is selected from 4,4 '-methyl diphenylene diisocyanate or toluene di-isocyanate(TDI);One or more in floating bead, Vermiculitum, glass bead, ceramic microsphere, glass microsphere, mullite, perlite, meerschaum, silica gel or polymer microballoon of described component 3, fineness is 120~200 mesh.
Interior wall heat preservation putty the most according to claim 1, it is characterised in that: the silicon sol solution solid content of described component 4 is 20~40%.
Interior wall heat preservation putty the most according to claim 1, it is characterized in that: in mass, containing 0~3 part of fire retardant, one or more in magnesium oxide, aluminium oxide, lanthana, beryllium oxide, calcium oxide, zirconium oxide, carborundum, titanium carbide, ramet, boron nitride, silicon nitride, zirconium boride, titanium boride, hafnium boride, molybdenum disilicide, thorium sulfide or cerium sulphide of described fire retardant, fineness is 120~200 mesh.
Interior wall heat preservation putty the most according to claim 1, it is characterized in that: in mass, containing 0~0.5 part of additive, described additive is selected from: the combination of one or more in reinforcing agent, polymerization inhibitor, waterproofing agent, preservative, water reducer, rheological agent, viscosity stabiliser.
9. the using method of interior wall heat preservation putty described in claim 1, it is characterized in that: by each component mix homogeneously, form paste, the paste of acquisition is spread upon inner wall of building surface by plastering construction technique, smearing thickness is 3~20 millimeters, and component 1 and component 2 reaction are released carbon dioxide and formed the bubble of distribution in smear layer, and make component 1 be cross-linked into organic polymer, component 4 and component 5 reaction generate silicate, form heat preservation putty layer together.
CN201410185809.6A 2014-05-05 2014-05-05 A kind of interior wall heat preservation putty and using method thereof CN104017413B (en)

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CN106752903A (en) * 2016-11-29 2017-05-31 湖州绿色新材股份有限公司 The stone imitation building paint and horizontal mould wash mixer of a kind of Gaoyang luminous reflectance
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CN108793910A (en) * 2017-09-26 2018-11-13 海南鑫申绿色建筑科技有限公司 Anti- folding halogen-free flameproof plate of one kind and preparation method thereof
CN107963905A (en) * 2017-12-11 2018-04-27 苏州弗克技术股份有限公司 Expansion type thermal insulation mortar
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