CN104610818A - Thermal insulation material for exterior walls of buildings and preparation method of thermal insulation material - Google Patents

Abstract

The invention discloses a thermal insulation material for exterior walls of buildings and a preparation method of the thermal insulation material. The thermal insulation material comprises the following raw materials in parts by weight: an emulsion, sepiolite, diatomite, xylene, an acrylic binder, nanometer titanium dioxide, natural granite stone powder, fumed silica, water glass, hollow glass microspheres, hollow ceramic microspheres, a dispersant, a coalescing agent, cellulose liquid, a penetrant, a fire retardant, lignin, an antimycotic and antifungal agent, an antifreezing agent, an antifoaming agent and a flatting agent. The thermal insulation material has the advantages of being thin in coatings, convenient to construct, low in heat conductivity coefficient, remarkable in thermal insulation effect, resistant to acid-base and good in adhesive force, can be firmly bound with a base body, and cannot peel and fall off. The raw materials and the preparation process do not pollute environment and conform to the development direction of modern industry required by environmental protection. A small amount of fire retardant is added during preparation, so that the defects that the current coating on the market is poor in water proofing property and inflammable are overcome.

Description

A kind of skin lagging material and preparation method thereof

Technical field

The present invention relates to a kind of heat-insulating heat-preserving material technical field for building, specifically a kind of skin lagging material and preparation method thereof.

Background technology

Building energy consumption occupies very large ratio in the whole energy consumption of the mankind, and the overwhelming majority is the energy consumption of heating and air-conditioning, the importance of save energy during the heat-insulation and heat-preservation of buildings.Heat insulating coatings is the new function coating that development in recent years is got up, the surface they being used for buildings can reduce the internal temperature of buildings, interior of building heat also can be made not easily to scatter and disappear fast, effectively can control the change of external temperature at the exterior wall of buildings or roofing applications one layer of heat preservation coating, play the effect of heat insulating.

Existing skin coating is the large class of solvent-home and water-iome paint two mainly, be applied to chamber outer surface application, reach device effect and the erosion of anti-sealing, air, microorganism and corrosives, it consists of and is made up of base-material, auxiliary agent and filler, existing exterior coating, main manifestations is that heat insulating effect is not good, resistance of aging is poor, easy efflorescence, easy to change, poor adhesive force, so improve the over-all properties of building external paint, especially improving thermal and insulating performance is energy-conservation key.

Summary of the invention

Skin lagging material that the object of the present invention is to provide a kind of strong adhesion, water resistance good and preparation method thereof, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the invention provides following technical scheme:

A kind of skin lagging material, comprise according to the raw material of weight part: emulsion 50-70 part, sepiolite 30-40 part, diatomite 30-35 part, dimethylbenzene 20-30 part, acryloid cement 20-25 part, nanometer titanium dioxide 20-25 part, natural granite powder 15-20 part, aerosil 10-20 part, water glass 10-18 part, hollow glass microballoon 8-10 part, ceramic microspheres 8-10 part, dispersion agent 5-10 part, film coalescence aid 5-8 part, cellulose solution 5-8 part, permeate agent 3-8 part, fire retardant 3-8 part, xylogen 3-5 part, germproof matter 3-5 part, frostproofer 3-5 part, defoamer 2-4 part, flow agent 2-4 part.

As the further scheme of the present invention: described skin lagging material, comprise according to the raw material of weight part: emulsion 60 parts, sepiolite 35 parts, 32 parts, diatomite, dimethylbenzene 25 parts, acryloid cement 22 parts, nanometer titanium dioxide 22 parts, 18 parts, natural granite powder, aerosil 15 parts, water glass 14 parts, hollow glass microballoon 9 parts, ceramic microspheres 9 parts, dispersion agent 8 parts, film coalescence aid 6 parts, cellulose solution 6 parts, permeate agent 5 parts, fire retardant 5 parts, 4 parts, xylogen, germproof matter 4 parts, frostproofer 4 parts, defoamer 3 parts, flow agent 3 parts.

As the further scheme of the present invention: described emulsion is acrylate and vinyl acetate emulsion, pure-acrylic emulsion, benzene emulsion, organosilicon crylic acid latex or elastic styrene acrylic emulsion.

As the further scheme of the present invention: described fire retardant is ammonium polyphosphate, aluminium hydroxide, magnesium hydroxide or graphite.

As the further scheme of the present invention: described film coalescence aid is ethylene glycol, propylene glycol, hexylene glycol, propandiol butyl ether, butyl glycol ether, propylene-glycol ethyl ether, xylyl alcohol, a diethyl acetal or hexylene glycol monobutyl ether acetate.

As the present invention's further scheme: the fineness of described hollow glass microballoon is 100-300 order, and wall thickness is 1-3 μm.

The preparation method of described skin lagging material, concrete steps are as follows:

(1) each raw material is taken according to weight part;

(2) acryloid cement is dissolved in dimethylbenzene all in, stir 15-25min with glass stick, make it dissolve completely and obtain binder solution;

(3) sepiolite, diatomite and natural granite powder are added stirrer with after the screening of 400-500 object sieve respectively, add water after mixing and stir 5-8min under the rotating speed of 300-500r/min, then this solution is added in reactor;

(4) continue to add binder solution, film coalescence aid, dispersion agent and frostproofer in reactor, under the rotating speed of 300-500r/min, stir 3-10min;

(5) in reactor, nanometer titanium dioxide, aerosil and water glass is added, disperse 30-45min to obtain under the rotating speed of 1000-2000r/min mixed system that fineness is 50-70 μm;

(6) under the rotating speed of 300-600r/min, fire retardant, germproof matter, defoamer, hollow glass microballoon, ceramic microspheres, emulsion, cellulose solution, permeate agent, xylogen and flow agent is added in the mixed system that step (4) obtains, stir 10-20min and obtain the mixed system that viscosity is 12000-14000mp/s, stop stirring rear filtration discharging and obtain finished product.

Compared with prior art, the invention has the beneficial effects as follows:

Building exterior wall heat preserving paint coatings prepared by the present invention is thin, easy construction, thermal conductivity is low, heat insulation effect is remarkable, acid and alkali-resistance, and sticking power is good, can with matrix mortise, the phenomenon can not produce peeling, coming off, and raw material of the present invention and preparation process environmentally safe, the developing direction of the modern industry that composite environmental-friendly requires, add a small amount of fire retardant in the preparation, improve the shortcomings such as existing coating water-proof on market is poor, inflammable.

Embodiment

Be described in more detail below in conjunction with the technical scheme of embodiment to this patent.

Embodiment 1

A kind of skin lagging material, comprises according to the raw material of weight part: acrylate and vinyl acetate emulsion 50 parts, sepiolite 30 parts, 30 parts, diatomite, dimethylbenzene 20 parts, acryloid cement 20 parts, nanometer titanium dioxide 20 parts, 15 parts, natural granite powder, aerosil 10 parts, water glass 10 parts, hollow glass microballoon 8 parts, ceramic microspheres 8 parts, dispersion agent 5-10 part, ethylene glycol 5 parts, cellulose solution 5 parts, permeate agent 3 parts, ammonium polyphosphate 3 parts, 3 parts, xylogen, germproof matter 3 parts, frostproofer 3 parts, defoamer 2 parts, flow agent 2 parts.

The preparation method of described skin lagging material, concrete steps are as follows:

(1) each raw material is taken according to weight part;

(2) acryloid cement is dissolved in dimethylbenzene all in, stir 15min with glass stick, make it dissolve completely and obtain binder solution;

(3) sepiolite, diatomite and natural granite powder are added stirrer with after 400 object sieve screenings respectively, add water after mixing and stir 5min under the rotating speed of 300r/min, then this solution is added in reactor;

(4) continue to add binder solution, ethylene glycol, dispersion agent and frostproofer in reactor, under the rotating speed of 300r/min, stir 3min;

(5) in reactor, nanometer titanium dioxide, aerosil and water glass is added, disperse 30min to obtain under the rotating speed of 1000r/min mixed system that fineness is 50 μm;

(6) under the rotating speed of 300r/min, ammonium polyphosphate, germproof matter, defoamer, hollow glass microballoon, ceramic microspheres, acrylate and vinyl acetate emulsion, cellulose solution, permeate agent, xylogen and flow agent is added in the mixed system that step (4) obtains, the fineness of hollow glass microballoon is 100 orders, wall thickness is 1 μm, stir 10min and obtain the mixed system that viscosity is 12000mp/s, stop stirring rear filtration discharging and obtain finished product.

Embodiment 2

A kind of skin lagging material, comprises according to the raw material of weight part: pure-acrylic emulsion 60 parts, sepiolite 35 parts, 32 parts, diatomite, dimethylbenzene 25 parts, acryloid cement 22 parts, nanometer titanium dioxide 22 parts, 18 parts, natural granite powder, aerosil 15 parts, water glass 14 parts, hollow glass microballoon 9 parts, ceramic microspheres 9 parts, dispersion agent 8 parts, butyl glycol ether 6 parts, cellulose solution 6 parts, permeate agent 5 parts, 5 parts, aluminium hydroxide, 4 parts, xylogen, germproof matter 4 parts, frostproofer 4 parts, defoamer 3 parts, flow agent 3 parts.

The preparation method of described skin lagging material, concrete steps are as follows:

(1) each raw material is taken according to weight part;

(2) acryloid cement is dissolved in dimethylbenzene all in, stir 20min with glass stick, make it dissolve completely and obtain binder solution;

(3) sepiolite, diatomite and natural granite powder are added stirrer with after 450 object sieve screenings respectively, add water after mixing and stir 6min under the rotating speed of 400r/min, then this solution is added in reactor;

(4) continue to add binder solution, butyl glycol ether, dispersion agent and frostproofer in reactor, under the rotating speed of 400r/min, stir 6min;

(5) in reactor, nanometer titanium dioxide, aerosil and water glass is added, disperse 38min to obtain under the rotating speed of 1500r/min mixed system that fineness is 60 μm;

(6) under the rotating speed of 450r/min, aluminium hydroxide, germproof matter, defoamer, hollow glass microballoon, ceramic microspheres, pure-acrylic emulsion, cellulose solution, permeate agent, xylogen and flow agent is added in the mixed system that step (4) obtains, the fineness of hollow glass microballoon is 200 orders, wall thickness is 2 μm, stir 15min and obtain the mixed system that viscosity is 13000mp/s, stop stirring rear filtration discharging and obtain finished product.

Embodiment 3

A kind of skin lagging material, comprises according to the raw material of weight part: benzene emulsion 70 parts, sepiolite 40 parts, 35 parts, diatomite, dimethylbenzene 30 parts, acryloid cement 25 parts, nanometer titanium dioxide 25 parts, 20 parts, natural granite powder, aerosil 20 parts, water glass 18 parts, hollow glass microballoon 10 parts, ceramic microspheres 10 parts, dispersion agent 10 parts, xylyl alcohol 8 parts, cellulose solution 8 parts, permeate agent 8 parts, magnesium hydroxide 8 parts, 5 parts, xylogen, germproof matter 5 parts, frostproofer 5 parts, defoamer 4 parts, flow agent 4 parts.

The preparation method of described skin lagging material, concrete steps are as follows:

(1) each raw material is taken according to weight part;

(2) acryloid cement is dissolved in dimethylbenzene all in, stir 25min with glass stick, make it dissolve completely and obtain binder solution;

(3) sepiolite, diatomite and natural granite powder are added stirrer with after 500 object sieve screenings respectively, add water after mixing and stir 8min under the rotating speed of 500r/min, then this solution is added in reactor;

(4) continue to add binder solution, xylyl alcohol, dispersion agent and frostproofer in reactor, under the rotating speed of 500r/min, stir 10min;

(5) in reactor, nanometer titanium dioxide, aerosil and water glass is added, disperse 45min to obtain under the rotating speed of 2000r/min mixed system that fineness is 70 μm;

(6) under the rotating speed of 600r/min, magnesium hydroxide, germproof matter, defoamer, hollow glass microballoon, ceramic microspheres, benzene emulsion, cellulose solution, permeate agent, xylogen and flow agent is added in the mixed system that step (4) obtains, the fineness of hollow glass microballoon is 300 orders, wall thickness is 3 μm, stir 20min and obtain the mixed system that viscosity is 14000mp/s, stop stirring rear filtration discharging and obtain finished product.

Building exterior wall heat preserving paint coatings prepared by the present invention is thin, easy construction, thermal conductivity is low, heat insulation effect is remarkable, acid and alkali-resistance, and sticking power is good, can with matrix mortise, the phenomenon can not produce peeling, coming off, and raw material of the present invention and preparation process environmentally safe, the developing direction of the modern industry that composite environmental-friendly requires, add a small amount of fire retardant in the preparation, improve the shortcomings such as existing coating water-proof on market is poor, inflammable.

Above the better embodiment of this patent is explained in detail, but this patent is not limited to above-mentioned embodiment, in the ken that one skilled in the relevant art possesses, various change can also be made under the prerequisite not departing from this patent aim.

Claims (7)

1. a skin lagging material, it is characterized in that, comprise according to the raw material of weight part: emulsion 50-70 part, sepiolite 30-40 part, diatomite 30-35 part, dimethylbenzene 20-30 part, acryloid cement 20-25 part, nanometer titanium dioxide 20-25 part, natural granite powder 15-20 part, aerosil 10-20 part, water glass 10-18 part, hollow glass microballoon 8-10 part, ceramic microspheres 8-10 part, dispersion agent 5-10 part, film coalescence aid 5-8 part, cellulose solution 5-8 part, permeate agent 3-8 part, fire retardant 3-8 part, xylogen 3-5 part, germproof matter 3-5 part, frostproofer 3-5 part, defoamer 2-4 part, flow agent 2-4 part.

2. skin lagging material according to claim 1, it is characterized in that, described skin lagging material, comprise according to the raw material of weight part: emulsion 60 parts, sepiolite 35 parts, 32 parts, diatomite, dimethylbenzene 25 parts, acryloid cement 22 parts, nanometer titanium dioxide 22 parts, 18 parts, natural granite powder, aerosil 15 parts, water glass 14 parts, hollow glass microballoon 9 parts, ceramic microspheres 9 parts, dispersion agent 8 parts, film coalescence aid 6 parts, cellulose solution 6 parts, permeate agent 5 parts, fire retardant 5 parts, 4 parts, xylogen, germproof matter 4 parts, frostproofer 4 parts, defoamer 3 parts, flow agent 3 parts.

3. skin lagging material according to claim 1, is characterized in that, described emulsion is acrylate and vinyl acetate emulsion, pure-acrylic emulsion, benzene emulsion, organosilicon crylic acid latex or elastic styrene acrylic emulsion.

4. skin lagging material according to claim 1, is characterized in that, described fire retardant is ammonium polyphosphate, aluminium hydroxide, magnesium hydroxide or graphite.

5. skin lagging material according to claim 1, it is characterized in that, described film coalescence aid is ethylene glycol, propylene glycol, hexylene glycol, propandiol butyl ether, butyl glycol ether, propylene-glycol ethyl ether, xylyl alcohol, a diethyl acetal or hexylene glycol monobutyl ether acetate.

6. skin lagging material according to claim 1, is characterized in that, the fineness of described hollow glass microballoon is 100-300 order, and wall thickness is 1-3 μm.

7. a preparation method for the skin lagging material as described in as arbitrary in claim 1-6, it is characterized in that, concrete steps are as follows:

(1) each raw material is taken according to weight part;

(2) acryloid cement is dissolved in dimethylbenzene all in, stir 15-25min with glass stick, make it dissolve completely and obtain binder solution;

(3) sepiolite, diatomite and natural granite powder are added stirrer with after the screening of 400-500 object sieve respectively, add water after mixing and stir 5-8min under the rotating speed of 300-500r/min, then this solution is added in reactor;

(4) continue to add binder solution, film coalescence aid, dispersion agent and frostproofer in reactor, under the rotating speed of 300-500r/min, stir 3-10min;

(5) in reactor, nanometer titanium dioxide, aerosil and water glass is added, disperse 30-45min to obtain under the rotating speed of 1000-2000r/min mixed system that fineness is 50-70 μm;

(6) under the rotating speed of 300-600r/min, fire retardant, germproof matter, defoamer, hollow glass microballoon, ceramic microspheres, emulsion, cellulose solution, permeate agent, xylogen and flow agent is added in the mixed system that step (4) obtains, stir 10-20min and obtain the mixed system that viscosity is 12000-14000mp/s, stop stirring rear filtration discharging and obtain finished product.