CN104496269A - Heat insulating real stone paint and preparation method thereof - Google Patents
Heat insulating real stone paint and preparation method thereof Download PDFInfo
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- CN104496269A CN104496269A CN201410787033.5A CN201410787033A CN104496269A CN 104496269 A CN104496269 A CN 104496269A CN 201410787033 A CN201410787033 A CN 201410787033A CN 104496269 A CN104496269 A CN 104496269A
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Abstract
The invention provides a heat insulating real stone paint and a preparation method thereof. The heat insulating real stone paint contains the following components in parts by mass: 65-76 parts of natural colored sand, 5-10 parts of an energy storage material, 18-22 parts of a bonding agent, 0.5-1.1 parts of a coalescing agent, 0.2-0.4 part of a bactericide, 0.4-0.6 part of an antifreezing agent and 2-8 parts of water. The heat insulating real stone paint provided by the invention has heat insulation and heat preservation functions on the premise that the decorative effect and protection performance of the product are not influenced, so that a new method and a new way for improving the heat insulation and heat preservation functions of products in the field of coatings are provided. The preparation method of the heat insulating real stone paint, provided by the invention, comprises the following steps: performing physical dispersion on the energy storage material and the natural colored sand serving as dispersed phases in a dispersant formed by the bonding agent and other auxiliary components, and stirring at a speed of 300-500 revolutions/minute to ensure that the dispersant can be uniformly coated on the outer surfaces of energy storage material particles and natural colored sand particles, thereby improving the adhesive force of the energy storage material and the natural colored sand.
Description
Technical field
The present invention relates to decoration of exterior wall field, more specifically, relate to true mineral varnish of a kind of insulation and preparation method thereof.
Background technology
Existing true mineral varnish adopts natural granite particle to be color development system, its decorative effect can show the unique model of lithotome and enrich texture, thus be the user's favorite, but, along with the arrival emphasizing the low-carbon energy-saving epoch, in exterior wall furnishing fields, improve thermal and insulating performance one of important means becoming energy-saving and emission-reduction of exterior wall decorating coating, but, true mineral varnish is different from traditional emulsion paint, because color development system there are differences, so the traditional method adopting glass microballon and coloured pigment to improve the thermal and insulating performance of coating is not suitable for true mineral varnish completely, thus, although the true mineral varnish circulated on the market at present has excellent decorative effect and stronger protective value, but heat insulation function is not possessed, so, limit the popularization commercially of existing true mineral varnish.
Summary of the invention
The present invention is intended at least to solve one of technical problem existed in prior art.
For this reason, the object of one aspect of the present invention is, provides a kind of good decorating effect, and protective value is excellent, and the true mineral varnish of the insulation with heat insulating effect.
The object of another aspect of the present invention is, provides the preparation method of the true mineral varnish of a kind of above-mentioned insulation.
For achieving the above object, the invention provides the true mineral varnish of a kind of insulation, the mass parts of the component comprised and each component is: natural colour sand: 65 ~ 76 parts; Energy-accumulation material: 5 ~ 10 parts; Binding agent: 18 ~ 22 parts; Film coalescence aid: 0.5 ~ 1.1 part; Sterilant: 0.2 ~ 0.4 part; Frostproofer: 0.4 ~ 0.6 part; Water: 2 ~ 8 parts.
The true mineral varnish of the insulation that the embodiment of the present invention provides; natural colour sand is adopted to be color development system; by adding energy-accumulation material; under the prerequisite not affecting product decoration effect and protective value; make product possess incubation and thermal insulation function, thus widened the use field of product, improve the competitiveness of product in market; meanwhile, also for paint field provides novel method and new way in raising product thermal and insulating performance.
In addition, the true mineral varnish of insulation that the above embodiment of the present invention provides also has following additional technical feature:
According to one embodiment of present invention, described energy-accumulation material comprises phase-change microcapsule Ι, and/or, phase-change microcapsule П, wherein, the scope of the transformation temperature of described phase-change microcapsule Ι is 12 ~ 20 DEG C, and the scope of the transformation temperature of described phase-change microcapsule П is 30 ~ 35 DEG C.
According to one embodiment of present invention, described natural colour sand: 70 ~ 76 parts; Described phase-change microcapsule Ι: 5 ~ 8 parts.
According to the abovementioned embodiments of the present invention, the mass parts of the component that comprises of described natural colour sand and each component is: natural colour sand 10 ~ 20 order: 0 ~ 10 part; Natural colour sand 20 ~ 40 order: 0 ~ 20 part; Natural colour sand 40 ~ 80 order: 16 ~ 30 parts; Natural colour sand 80 ~ 120 order: 24 ~ 46 parts.
According to one embodiment of present invention, described natural colour sand: 70 ~ 76 parts; Described phase-change microcapsule П: 5 ~ 8 parts.
According to the abovementioned embodiments of the present invention, the mass parts of the component that comprises of described natural colour sand and each component is: natural colour sand 10 ~ 20 order: 0 ~ 10 part; Natural colour sand 20 ~ 40 order: 0 ~ 20 part; Natural colour sand 40 ~ 80 order: 16 ~ 30 parts; Natural colour sand 80 ~ 120 order: 24 ~ 46 parts.
According to one embodiment of present invention, described natural colour sand: 65 ~ 70 parts; Described phase-change microcapsule Ι and described phase-change microcapsule П: 8 ~ 10 parts.
According to the abovementioned embodiments of the present invention, the mass parts of the component that comprises of described natural colour sand and each component is: natural colour sand 10 ~ 20 order: 0 ~ 10 part; Natural colour sand 20 ~ 40 order: 0 ~ 20 part; Natural colour sand 40 ~ 80 order: 14 ~ 28 parts; Natural colour sand 80 ~ 120 order: 21 ~ 42 parts.
According to one embodiment of present invention, described binding agent is ACRYLIC EMULSION, and/or, silicon Acrylote emulsion.
The embodiment of another aspect of the present invention provides the preparation method of the true mineral varnish of a kind of insulation, comprise the steps: step S101, drop into the frostproofer of the water of 2 ~ 8 mass parts, the sterilant of 0.2 ~ 0.4 mass parts and 0.4 ~ 0.6 mass parts successively in whipping appts after, stir with the rotating speed of 300 ~ 500 revs/min; Step S102, after dropping into the energy-accumulation material of the binding agent of 18 ~ 22 mass parts, the film coalescence aid of 0.5 ~ 1.1 mass parts and 5 ~ 10 mass parts successively, stirs with the rotating speed of 300 ~ 500 revs/min in described whipping appts; Step S103, after dropping into the natural colour sand of 65 ~ 76 mass parts, is uniformly dispersed in described whipping appts.
In addition, the preparation method of the true mineral varnish of insulation that the above embodiment of the present invention provides also has following additional technical feature:
According to one embodiment of present invention, in described step S103, described natural colour sand comprises: 80 ~ 120 object natural colour sands, 40 ~ 80 object natural colour sands, 20 ~ 40 object natural colour sands, 10 ~ 20 object natural colour sands, and described 80 ~ 120 object natural colour sands, 40 ~ 80 object natural colour sands, 20 ~ 40 object natural colour sands, 10 ~ 20 object natural colour sands are put in described whipping appts successively.
Adopt technique scheme, using energy-accumulation material and natural colour sand as disperse phase, physical dispersion is carried out in the dispersion agent that binding agent and other auxiliary components are formed, stir with the speed of 300 ~ 500 revs/min, make dispersion agent can be coated on the outside surface of energy-accumulation material particle and natural colour sand particle equably, thus improve the sticking power to energy-accumulation material and natural colour sand.
In sum; the true mineral varnish of the insulation that the embodiment of the present invention provides; natural colour sand is adopted to be color development system; by adding energy-accumulation material, under the prerequisite not affecting product decoration effect and protective value, product is made to possess incubation and thermal insulation function; thus widened the use field of product; improve the competitiveness of product in market, meanwhile, also for paint field provides novel method and new way in raising product thermal and insulating performance.
In addition, energy-accumulation material and natural colour sand are as disperse phase, physical dispersion is carried out in the dispersion agent that binding agent and other auxiliary components are formed, under the stirring of whipping appts, make dispersion agent can be coated on the outside surface of energy-accumulation material particle and natural colour sand particle equably, thus improve the sticking power to energy-accumulation material and natural colour sand.
Additional aspect of the present invention and advantage become obvious by description part below, or are recognized by practice of the present invention.
Accompanying drawing explanation
Above-mentioned and/or additional aspect of the present invention and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:
Fig. 1 is the schema of the preparation method of the true mineral varnish of insulation according to one embodiment of the invention.
Embodiment
In order to more clearly understand above-mentioned purpose of the present invention, feature and advantage, below in conjunction with the drawings and specific embodiments, the present invention is further described in detail.It should be noted that, when not conflicting, the feature in the embodiment of the application and embodiment can combine mutually.
Set forth a lot of detail in the following description so that fully understand the present invention; but; the present invention can also adopt other to be different from mode described here to implement, and therefore, protection scope of the present invention is not by the restriction of following public specific embodiment.
For achieving the above object, the true mineral varnish of insulation provided by the invention, the mass parts of the component comprised and each component is: natural colour sand: 65 ~ 76 parts; Energy-accumulation material: 5 ~ 10 parts; Binding agent: 18 ~ 22 parts; Film coalescence aid: 0.5 ~ 1.1 part; Sterilant: 0.2 ~ 0.4 part; Frostproofer: 0.4 ~ 0.6 part; Water: 2 ~ 8 parts.
The true mineral varnish of the insulation that the embodiment of the present invention provides; natural colour sand is adopted to be color development system; by adding energy-accumulation material; under the prerequisite not affecting product decoration effect and protective value; make product possess incubation and thermal insulation function, thus widened the use field of product, improve the competitiveness of product in market; meanwhile, also for paint field provides novel method and new way in raising product thermal and insulating performance.
In one embodiment of the invention, energy-accumulation material comprises phase-change microcapsule Ι, and/or phase-change microcapsule П, wherein, the scope of the transformation temperature of phase-change microcapsule Ι is 12 ~ 20 DEG C, and the scope of the transformation temperature of phase-change microcapsule П is 30 ~ 35 DEG C.
In this embodiment, phase-change microcapsule is micron-sized macromolecular material parcel compound resin phase change material, when the transformation temperature of compound resin phase change material is crossed in the change of envrionment temperature, the physical condition of compound resin phase change material can liquid and solid-state between change, and discharge a large amount of latent heat along with the change of physical condition, thus realize the object of heat insulating, according to south China and northern climate difference, energy-accumulation material is set and comprises transformation temperature different phase-change microcapsule Ι and/or phase-change microcapsule П, owing to being located in the autumn of northern area, winter is cold, the compound resin phase change material of transformation temperature a certain temperature in 12 ~ 20 DEG C can be selected, true mineral varnish is made mainly to play the autumn, winter insulation effect, and the summer being located in southern area is hot, the compound resin phase change material of transformation temperature a certain temperature in 30 ~ 35 DEG C can be selected, true mineral varnish is made mainly to play heat-blocking action in summer, certainly, transition temperature range is herein not unique, the phase-change microcapsule that transformation temperature is suitable can be selected according to the climatic condition of the use region of product.
In one embodiment of the invention, natural colour sand: 70 ~ 76 parts; Phase-change microcapsule Ι: 5 ~ 8 parts, wherein, the mass parts of the component that natural colour sand comprises and each component is: natural colour sand 10 ~ 20 order: 0 ~ 10 part; Natural colour sand 20 ~ 40 order: 0 ~ 20 part; Natural colour sand 40 ~ 80 order: 16 ~ 30 parts; Natural colour sand 80 ~ 120 order: 24 ~ 46 parts.
In this embodiment, owing to being located in the autumn of northern area, winter is cold, select the phase-change microcapsule Ι of transformation temperature a certain temperature in 12 ~ 20 DEG C as energy-accumulation material, autumn, winter, when the transformation temperature of compound resin phase change material during envrionment temperature is lower than phase-change microcapsule Ι, compound resin phase change material in phase-change microcapsule Ι becomes solid-state from initial liquid state, and release a large amount of latent heat, true mineral varnish is made to play certain insulation effect, thus reduction user carries out by other heating arrangements the energy consumption caused of warming oneself, realize the energy-saving and emission-reduction object of product.
In this embodiment; along with adding of energy-accumulation material; for the decorative effect and protective value that ensure product are not affected; by correspondingly arranging different meshes natural colour sand; and the mass parts of natural colour sand, to control the filling effect of natural colour sand, and then controls the color development effect of product and protective value under limiting each order number.
In one embodiment of the invention, natural colour sand: 70 ~ 76 parts; Phase-change microcapsule П: 5 ~ 8 parts, wherein, the mass parts of the component that natural colour sand comprises and each component is: natural colour sand 10 ~ 20 order: 0 ~ 10 part; Natural colour sand 20 ~ 40 order: 0 ~ 20 part; Natural colour sand 40 ~ 80 order: 16 ~ 30 parts; Natural colour sand 80 ~ 120 order: 24 ~ 46 parts.
In this embodiment, because the summer being located in southern area is hot, select the phase-change microcapsule П of transformation temperature a certain temperature in 30 ~ 35 DEG C as energy-accumulation material, when the transformation temperature of compound resin phase change material during summer environment temperature is higher than phase-change microcapsule П, compound resin phase change material in phase-change microcapsule П solid-stately becomes liquid state from initial, and absorb a large amount of heats, true mineral varnish is made mainly to play certain heat-blocking action, thus reduction user carries out by other refrigeration plants the energy consumption caused of lowering the temperature, and realizes the energy-saving and emission-reduction object of product.
In addition, along with adding of energy-accumulation material, for the decorative effect and protective value that ensure product are not affected, by correspondingly arranging different meshes natural colour sand, and under limiting each order number the mass parts of natural colour sand to control the filling effect of natural colour sand, and then control color development effect and the protective value of product, particularly, there is provided within the scope of the mass parts of natural colour sand at above-described embodiment, according to user, 10 ~ 20 orders are optionally added to the strength demand of product, and/or, 20 ~ 40 object natural colour sands, and control natural colour sand 40 ~ 80 order and natural colour sand 80 ~ 120 object adding proportion is 4:6.
In one embodiment of the invention, natural colour sand: 65 ~ 70 parts; Phase-change microcapsule Ι and phase-change microcapsule П: 8 ~ 10 parts, wherein, the mass parts of the component that natural colour sand comprises and each component is: natural colour sand 10 ~ 20 order: 0 ~ 10 part; Natural colour sand 20 ~ 40 order: 0 ~ 20 part; Natural colour sand 40 ~ 80 order: 14 ~ 28 parts; Natural colour sand 80 ~ 120 order: 21 ~ 42 parts.
In this embodiment, according to the specific demand of user, can select to add phase-change microcapsule Ι and phase-change microcapsule П simultaneously, make in temperature-fall period autumn and winter, undergo phase transition primarily of the compound resin phase change material in phase-change microcapsule Ι and be incubated, in summer temperature-rise period, primarily of the compound resin phase change material in phase-change microcapsule П undergo phase transition carry out heat insulation, certainly, mutually weaken for reducing between phase-change microcapsule Ι and phase-change microcapsule П, difference between the transformation temperature arranging compound resin phase change material in the transformation temperature of compound resin phase change material in phase-change microcapsule Ι and phase-change microcapsule П is greater than product and plays insulation effect, or, when product plays heat-blocking action, difference between the film surrounding temperature of product and envrionment temperature.
In addition, along with adding of energy-accumulation material, for the decorative effect and protective value that ensure product are not affected, the filling effect of natural colour sand is controlled by correspondingly arranging the mass parts of natural colour sand under different meshes natural colour sand and each order number, and then control color development effect and the protective value of product, particularly, there is provided within the scope of the mass parts of natural colour sand at above-described embodiment, according to user, 10 ~ 20 orders are optionally added to the strength demand of product, and/or, 20 ~ 40 object natural colour sands, and control natural colour sand 40 ~ 80 order and natural colour sand 80 ~ 120 object adding proportion is 4:6.
In one embodiment of the invention, binding agent is ACRYLIC EMULSION, and/or, silicon Acrylote emulsion.
In the above-described embodiments, preferably, binding agent is silicon Acrylote emulsion, by grafted-organosilicon monomer on acrylic monomer, thus further increase the sticking power of binding agent, weathering resistance and snappiness, and then improve binding agent to energy-accumulation material and the sticking power between natural colour sand and body of wall.
Below in conjunction with some specific embodiments, true mineral varnish of insulation and preparation method thereof is described.
Be incubated true mineral varnish one:
The component that the true mineral varnish of insulation in the present embodiment comprises and each constituent mass part are:
Natural colour sand: 73 parts; Phase-change microcapsule Ι or phase-change microcapsule П: 5 parts; Silicon Acrylote emulsion: 18 parts; Film coalescence aid: 0.9 part; Sterilant: 0.3 part; Frostproofer: 0.4 part; Water: 2.4 parts.
Be incubated true mineral varnish two:
The component that the true mineral varnish of insulation in the present embodiment comprises and each constituent mass part are:
Natural colour sand: 72 parts; Phase-change microcapsule Ι or phase-change microcapsule П: 5.8 parts; Silicon Acrylote emulsion: 18.5 parts; Film coalescence aid: 0.9 part; Sterilant: 0.3 part; Frostproofer: 0.4 part; Water: 2.1 parts.
Be incubated true mineral varnish three:
The component that the true mineral varnish of insulation in the present embodiment comprises and each constituent mass part are:
Natural colour sand: 71 parts; Phase-change microcapsule Ι or phase-change microcapsule П: 5.8 parts; Silicon Acrylote emulsion: 19.2 parts; Film coalescence aid: 1.0 parts; Sterilant: 0.3 part; Frostproofer: 0.4 part; Water: 2.3 parts.
Be incubated true mineral varnish four:
The component that the true mineral varnish of insulation in the present embodiment comprises and each constituent mass part are:
Natural colour sand: 67 parts; Phase-change microcapsule Ι: 4 parts; Phase-change microcapsule П: 4 parts; Silicon Acrylote emulsion: 21 parts; Film coalescence aid: 1.1 parts; Sterilant: 0.3 part; Frostproofer: 0.4 part; Water: 2.2 parts.
Environment-friendly exterior wall coating in above-mentioned four embodiments, the true mineral varnish of insulation all can be made to have both decorate properties, protective value and thermal and insulating performance, and namely above-described embodiment all can realize goal of the invention of the present invention.
The embodiment of another aspect of the present invention provides a kind of preparation method being incubated true mineral varnish, as shown in Figure 1, comprises the steps:
Step S101, after dropping into the water of 2 ~ 8 mass parts, the sterilant of 0.2 ~ 0.4 mass parts and the frostproofer of 0.4 ~ 0.6 mass parts successively, stirs with the rotating speed of 300 ~ 500 revs/min in whipping appts;
Step S102, after dropping into the binding agent of 18 ~ 22 mass parts, the film coalescence aid of 0.5 ~ 1.1 mass parts and the energy-accumulation material of 5 ~ 10 mass parts successively, stirs with the rotating speed of 300 ~ 500 revs/min in whipping appts;
Step S103, after dropping into the natural colour sand of 65 ~ 76 mass parts, is uniformly dispersed in whipping appts.
In one embodiment of the invention, in described step S103, described natural colour sand comprises: 80 ~ 120 object natural colour sands, 40 ~ 80 object natural colour sands, 20 ~ 40 object natural colour sands, 10 ~ 20 object natural colour sands, and described 80 ~ 120 object natural colour sands, 40 ~ 80 object natural colour sands, 20 ~ 40 object natural colour sands, 10 ~ 20 object natural colour sands are put in described whipping appts successively.
Adopt technique scheme, using energy-accumulation material and natural colour sand as disperse phase, physical dispersion is carried out in the dispersion agent that binding agent and other auxiliary components are formed, stir with the speed of 300 ~ 500 revs/min, make dispersion agent can be coated on the outside surface of energy-accumulation material particle and natural colour sand particle equably, thus improve the sticking power to energy-accumulation material and natural colour sand.
In sum; the true mineral varnish of the insulation that the embodiment of the present invention provides; natural colour sand is adopted to be color development system; by adding energy-accumulation material, under the prerequisite not affecting product decoration effect and protective value, product is made to possess incubation and thermal insulation function; thus widened the use field of product; improve the competitiveness of product in market, meanwhile, also for paint field provides novel method and new way in raising product thermal and insulating performance.
In addition, energy-accumulation material and natural colour sand are as disperse phase, physical dispersion is carried out in the dispersion agent that binding agent and other auxiliary components are formed, under the stirring of whipping appts, make dispersion agent can be coated on the outside surface of energy-accumulation material particle and natural colour sand particle equably, thus improve the sticking power to energy-accumulation material and natural colour sand.
The Performance Detection of the true mineral varnish of the insulation that the present embodiment provides is as shown in table 1 below.
Table 1
Known in conjunction with above-mentioned table 1, the product performance of the true mineral varnish of the insulation that the embodiment of the present invention provides meet the technical requirements of synthetic resin emulsion sandy paint.
In the description of this specification sheets, specific features, structure, material or feature that the description of term " embodiment ", " some embodiments ", " specific embodiment " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present invention or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.
The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.
Claims (10)
1. be incubated a true mineral varnish, it is characterized in that, the mass parts of the component comprised and each component is:
Natural colour sand: 65 ~ 76 parts;
Energy-accumulation material: 5 ~ 10 parts;
Binding agent: 18 ~ 22 parts;
Film coalescence aid: 0.5 ~ 1.1 part;
Sterilant: 0.2 ~ 0.4 part;
Frostproofer: 0.4 ~ 0.6 part;
Water: 2 ~ 8 parts.
2. the true mineral varnish of insulation according to claim 1, is characterized in that,
Described energy-accumulation material comprises phase-change microcapsule Ι, and/or phase-change microcapsule П, wherein, the scope of the transformation temperature of described phase-change microcapsule Ι is 12 ~ 20 DEG C, and the scope of the transformation temperature of described phase-change microcapsule П is 30 ~ 35 DEG C.
3. the true mineral varnish of insulation according to claim 2, is characterized in that,
Described natural colour sand: 70 ~ 76 parts;
Described phase-change microcapsule Ι: 5 ~ 8 parts.
4. the true mineral varnish of insulation according to claim 2, is characterized in that,
Described natural colour sand: 70 ~ 76 parts;
Described phase-change microcapsule П: 5 ~ 8 parts.
5. the true mineral varnish of insulation according to claim 2, is characterized in that,
Described natural colour sand: 65 ~ 70 parts;
Described phase-change microcapsule Ι and described phase-change microcapsule П: 8 ~ 10 parts.
6. the true mineral varnish of the insulation according to claim 3 or 4, is characterized in that,
The mass parts of the component that described natural colour sand comprises and each component is:
Natural colour sand 10 ~ 20 order: 0 ~ 10 part;
Natural colour sand 20 ~ 40 order: 0 ~ 20 part;
Natural colour sand 40 ~ 80 order: 16 ~ 30 parts;
Natural colour sand 80 ~ 120 order: 24 ~ 46 parts.
7. the true mineral varnish of insulation according to claim 5, is characterized in that,
The mass parts of the component that described natural colour sand comprises and each component is:
Natural colour sand 10 ~ 20 order: 0 ~ 10 part;
Natural colour sand 20 ~ 40 order: 0 ~ 20 part;
Natural colour sand 40 ~ 80 order: 14 ~ 28 parts;
Natural colour sand 80 ~ 120 order: 21 ~ 42 parts.
8. the true mineral varnish of insulation according to claim 1, is characterized in that,
Described binding agent comprises ACRYLIC EMULSION and/or silicon Acrylote emulsion.
9. be incubated a preparation method for true mineral varnish, it is characterized in that, comprise the steps:
Step S101, after dropping into the water of 2 ~ 8 mass parts, the sterilant of 0.2 ~ 0.4 mass parts and the frostproofer of 0.4 ~ 0.6 mass parts successively, stirs with the rotating speed of 300 ~ 500 revs/min in whipping appts;
Step S102, after dropping into the energy-accumulation material of the binding agent of 18 ~ 22 mass parts, the film coalescence aid of 0.5 ~ 1.1 mass parts and 5 ~ 10 mass parts successively, stirs with the rotating speed of 300 ~ 500 revs/min in described whipping appts;
Step S103, after dropping into the natural colour sand of 65 ~ 76 mass parts, is uniformly dispersed in described whipping appts.
10. the preparation method of the true mineral varnish of insulation according to claim 9, is characterized in that,
In described step S103, described natural colour sand comprises: 80 ~ 120 object natural colour sands, 40 ~ 80 object natural colour sands, 20 ~ 40 object natural colour sands, 10 ~ 20 object natural colour sands, and described 80 ~ 120 object natural colour sands, 40 ~ 80 object natural colour sands, 20 ~ 40 object natural colour sands, 10 ~ 20 object natural colour sands are put in described whipping appts successively.
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Application publication date: 20150408 |