RU2707992C1 - Protective coating for brick or concrete surface - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to an energy-saving coating and specifically relates to the protection of brick, concrete and reinforced concrete surfaces of buildings and structures, particularly walls, ceilings, as well as storage tanks for oil and oil products, reservoirs for water treatment and storage of reagent compositions, repaired and newly manufactured buildings and structures, as well as to methods for application of protective coating on these surfaces. Energy-saving coating contains several layers based on Moutrical material on said surface, which are made by successive application of coating composition. Coating consists of three layers with total thickness of coating 1.2–1.5 mm, where each layer has thickness of 0.4–0.5 mm. Coating is made from a composition having the following composition, wt%: titanium dioxide 3–5, zinc phosphate 3–6, Altiris pigment 550 4–6, white soot BS 120 3.5–5.5, microtalc 2.5–4.5, organosilicon hydrophobizator – Silres BS 168 0.5–1, organosilicon hydrophobizator – Silres BS 1001 6–8, antifoaming agent Foamaster 0.2–0.4, glass microspheres 10–14, quartz aerogel 2.8–4.8, preserving agent Parmetol A-26 0.1–0.3, biocide Bioban 536 0.1–0.3, coalescent Texanol 2–3, silane A 187 – adhesion promoter 0.2–0.4, acrylic emulsion Akratan AS05.1 35–40, corrosion inhibitor Ascotran 0.1–0.3, thickener Natrosol 250 0.2–0.5, Acrysol RW 8 thickener 0.4–0.8, water – balance.

EFFECT: improved protective properties of the coating.

1 cl, 1 dwg

Description

The present invention relates to the field of protection of brick, concrete and reinforced concrete surfaces of building structures of buildings and structures, in particular walls, ceilings, as well as tanks for storing oil and oil products, water treatment tanks and storage of reagent compositions, repaired and newly manufactured buildings and structures, and to methods of applying a protective coating to these surfaces.

Concrete protection against destruction is necessary because this material, although very durable, is constantly exposed to destructive factors during operation, including precipitation, chemicals, exposure to high or low temperatures or their changes, ultraviolet - UV radiation, and industrial gases .

This protective coating (penetrating-barrier type) is a protective material with a wide spectrum of action, since it diffuses into the porous structure of the material and chemically interacts with concrete or brick components, increasing their strength characteristics, frost resistance, corrosion resistance, protecting against UV rays and moisture due to its component composition, which determines the formation on the surface of concrete or brick of a three-dimensional mesh structure that repels water, but retains permeability. At the same time, the heat transfer resistance through the building envelope increases by an average of 70%, thereby protecting the structure from temperature extremes (Example No. 2). As for protection against chemical corrosion, in this case we are talking about concrete or brick tanks, in which the depth of corrosion can reach 50 cm. If you do not protect concrete or brick, then over time they can simply turn into dust. Also, the coating has increased chemical resistance and allows you to comprehensively solve the problems of protecting concrete and reinforced concrete or brick building structures of industrial and civil facilities, both during new construction, and during repair and restoration, operational works of varying degrees of complexity, extending the life of a concrete or brick structure , reducing the cost of restoration, as well as maintenance.

Known anti-corrosion and thermal insulation coating for various surfaces of building structures, buildings and structures based on hollow microspheres, made of a composition containing a polymeric binder of 5-95 vol. % and hollow microspheres 5-95 vol.%, where the binder is a composition containing 10-90 vol. % polymer from the group comprising acrylate homopolymer, styrene-acrylate copolymer, styrene-butadiene copolymer, polystyrene, butadiene polymer, polyvinyl chloride polymer, polyurethane polymer, vinyl acetate polymer or copolymer or mixtures thereof, and 10-90 vol. % of a mixture of water and surfactant, and as microspheres, a mixture of microspheres with sizes from 10 to 500 μm and a bulk density of 650-50 kg / m ³ from the group including glass, ceramic, polymer, ash microspheres and mixtures thereof (RU 2251563, published 05/10/2005, C09D 5/02.

The disadvantage of the coating is the limited operational functions, low operational properties.

A heat-insulating coating for insulated surfaces is also known, comprising heat-insulating layers arranged sequentially on each other, placed directly on the heat-insulated surface, made of foamed polymer binder and microspheres, bonded to a layer of metal foil or polymer metallized film. The coating is applied by applying it to an insulated surface with adjoining the specified layer (patent RU 160985 U1 ЕВВ 1/76 (published on 04/10/2016).

The disadvantage of this coating is a significant consumption of metal, low protective properties of the coating due to the thermal conductivity of the metal, as well as the low adaptability of the process of protecting the insulated surface.

The closest analogue - the prototype is a protective coating for brick or concrete surfaces, containing four to seven thermal insulation layers arranged sequentially on each other, placed directly on an insulated brick or concrete surface, made of a composition containing, by weight. %: titanium dioxide 1-3, zinc phosphate 1-3, soot white 1-3. water repellent 0.5-3, antifoam 0.1-0.5, a mixture of ceramic and silicon microspheres 20-40, preservative - the product of the interaction of monoethanolamine and paraform 0.2-1, acrylic latex 30-45, thickener - acrylic copolymer water emulsion 0.2-1, dispersant - polymer additive Verowett 8004 0.5-3, expanded perlite 1-5, expanded vermiculite 1-5, quartz airgel 5-10, water the rest, (patent RU 2342415, published December 27, 2008, C09D 5/02). The coating reduces the surface temperature by 60-70%, however, this does not provide sufficient protection against water absorption, frost resistance, corrosion resistance, as well as adhesion of the coating to the insulated surface, which consequently leads to insufficient durability of the protected concrete or brick product or structure as a whole .

The technical task is to eliminate these disadvantages.

The technical result of the claimed invention is to increase the protective properties of the coating, which provides increased durability of concrete or brick products or structures by reducing water absorption and heat transfer, increasing the strength of the coating and its adhesion to the insulated surface, frost and corrosion resistance, as well as resistance to ultraviolet radiation .

The achievement of the specified technical result is ensured by the fact that the protective coating for the brick or concrete surface, containing several layers placed on the indicated surface, made by sequential application of the composition, consists of three layers with a total coating thickness of 1.2-1.5 mm, where each layer has the thickness of 0.4-0.5 mm and made of a composition having a composition, wt. %: titanium dioxide 3-5, zinc phosphate 3-6, Altiris 550 pigment - 4-6, white carbon black BS 120 3.5-5.5, microtalc 2.5-4.5, organosilicon water-repellent agent - Silres BS 168 0 , 5-1, silicone water repellent agent - Silres BS 1001 6-8, antifoam Foamaster 0.2 -0.4, glass microspheres 10-14, quartz airgel 2.8-4.8, preservative Parmetol A-26 0.1- 0.3, biocide Bioban 536 0.1-0.3, coalescent Texanol 2-3, silane A 187- adhesion promoter 0.2-0.4, acrylic emulsion Akratan AS05.1 35-40, Ascotran 0 corrosion inhibitor, 1 - 0.3, thickener Natrosol 250 - 0.2 - 0.5, thickener Acrisol RW 8 0.4 - 0.8, water the rest.

The invention is illustrated in FIG. 1, which shows the protection of the concrete glasses of the supports of the canopy of the discharge platform on the railway (example 1);

in FIG. 2. shows the thermal protection of the enclosing structures of a multi-storey brick residential building (example 2).

The coating is applied in layers by any method - airless spraying, roller, brush. Each layer is made of a composition having a composition, wt. %: titanium dioxide 3-5, zinc phosphate 3-6, Altiris 550 pigment - 4-6, white carbon black BS 120 3.5-5.5, microtalc 2.5-4.5, organosilicon water-repellent agent - Silres BS 168 0 , 5-1, organosilicon water-repellent agent - Silres BS 1001 6-8, antifoam Foamaster 0.2 - 0.4, glass microspheres 10-14, quartz airgel 2.8-4.8, preservative Parmetol A-26 0.1- 0.3, biocide Bioban 536 0.1-0.3, coalescent Texanol 2-3, silane A 187- adhesion promoter 0.2-0.4, acrylic emulsion Akratan AS05.1 35-40, Ascotran 0 corrosion inhibitor, 1 - 0.3, thickener Natrosol 250 - 0.2 - 0.5, thickener Acrisol RW 8 0.4 - 0.8, water the rest. The first layer is applied to a brick or concrete surface with a thickness of at least 0.4 mm and not more than 0.5 mm and performs the functions of: adhesive, water repellent, anti-corrosion protection. After the layer has completely dried for about 120 minutes at a temperature of about 20 ° C, a second layer is applied by the same method from the specified composition with a thickness of at least 0.4 mm and not more than 0.5 mm, the third layer from the above composition is applied to the second layer after it has completely dried, with a thickness of not less than 0.4 mm and not more than 0.5 mm with a total coating layer thickness of 1.2-1.5 mm. The drying time of the subsequent after the first layers is about 60 minutes at 20 ° C. The coating has a water absorption of not more than 0.01 g / cm ³ , resistance to variable temperatures from +62 to -62 ° C is 25 cycles, vapor permeability is 1.1 * 10 ^-4 t / cm h, adhesion to concrete / brick is 1.2 - 1.3 MPa, an increase in heat transfer resistance through the building envelope on average - 70%, the reflection coefficient of ultraviolet rays from the described coating is 92%.

In the manufacture of the coating, the following substances are used as components of the composition of the above composition.

Titanium dioxide - a pigment of any brand, for example, brand R-706, with a basic substance content of 93.7 wt. %, with good wettability, a density of the order of 3 g / cm, an average particle size of 0.27 microns, or of the Kronos 2190 brand, is a white pigment with a titanium dioxide content of 94 wt. %, the method of producing sulfate, the relative scattering power of 99 - 106%, brightness 97.1 - 97.7%, the average particle size of 0.24 microns, provides maximum gloss, gives the materials excellent hiding power and good weather resistance.

Zinc phosphate is a white pigment of any brand, for example, brand ZP-M, with a concentration of the main substance of 99.3 wt. % possessing anticorrosive properties, density 3.4 g / cm ³ .

Pigments Altiris 550 is a series of pigments based on titanium dioxide with a crystal size of 0.7 μm and an intensity of approximately 40 - 50% of conventional TiO ₂ , the surface of the crystal of titanium dioxide is coated with a layer of aluminum and silicon oxides with a high reflectance in UV (ultraviolet) and IR (infrared) - region of the spectrum. They are designed to create “cool” coatings and plastics of the entire color range - from pastel to dark colors

Microtalc is a fine dry light powder with the inclusion of chlorite, magnesite in the absence of free quartz (0.2%) and asbestos-forming rocks. The particle size is 0.2-20 microns. Density 2.7 - 2.75 g / cm ³ , hardness (Mohs) 1.2, refractive index 1.57, pH 8.5 - 9.5.

Quartz airgel, for example Nanogel Aerogel, which is a solid in the form of interconnected microparticles forming a rigid framework, 95% of which is air, with a particle surface area of 600-800 m ² / g, has hydrophobic properties. Pore diameter of 20 nm, porosity of more than 90%, thermal conductivity of 0.018 W / m K at 25 ° C.

White carbon black - finely dispersed amorphous silicon dioxide of any brand, for example, BS120 according to GOST 18307-78, serves as a filler, dispersion stabilizer. Mass fraction of silicon dioxide is not less than 86%.

Glass microspheres - hollow microspheres of sodium-calcium borosilicate glass, 10-120 microns in size, have a density of 0.15-0.20 g / cm3 and isostatic compressive strength of 300-400 psi. They have stable cavities for low thermal conductivity.

Coalescent Texanol - is a slowly evaporating solvent, such as glycol ethers, glycol ether esters and mixtures of alcohol and esters. They plasticize the particles of the emulsion polymer, allowing them to fuse with each other, and provide a better film formation than would be possible without this additive. In addition to lowering the minimum film formation temperature of latex paint, the coalescing additive improves the weather resistance of the paint, resistance to scratching and cleaning, tinting and uniform color development. It is an excellent coalescing agent for latex paint formulations, acts as a plasticizer - dispersant, and protects the coating from cracking. Specifications: specific gravity at 20 ° С - 0.95 g / cm ³ , refractive index at 20 ° С - 1.4423, freezing point -50 ° С, boiling point at 760 mm + 255 ° С.

Foamaster antifoam - an amber-colored turbid liquid, antifoam based on mineral oil and non-ionic surfactants, used at any stage of the production process of emulsion paints. Particularly effective in finely dispersed acrylic emulsions, sparingly soluble in water, but easily soluble in paints and does not lead to delamination even in medium viscosity paints. Water content 0.25%, density at 25 ° C 0.85 - 0.90 g / ml, Brookfield viscosity 25 ° C 100-800 mPa / s.

Preservative - Parmetol A-26 is a clear, colorless to yellow liquid with a specific odor, which is a combination of chloromethyl- / methylisothiazolinone (CMI / MI) and N- / O-formals; the preservative that provides protection in the vapor phase does not contain chloromethylisothiazolinone. It has a density of 1.04 g / cm ³ and a refractive index of 1.356 at 20 ° C.

BIOBAN 536 Biocide is a colorless to yellow liquid, a highly effective preservative that allows preserving a wide range of water-based products, as well as protecting the air phase. BIOBAN 536 provides protection against bacteria, fungi and yeast, is suitable for the protection of paints, adhesives and polymer emulsions, water-based, as well as other technical products. BIOBAN 536 is based on CMIT / MIT and contains a formaldehyde donor. The density at 20 ° C is 1.010-1.110 g / ml, the pH value is 2-6.

Ascotran Corrosion Inhibitor is a hydrophobic additive that protects a still-dry coating in high humidity conditions from corrosion. Designed to create environmentally friendly coatings. It is an aqueous preparation from salts of organic acids, contains less than 5% sodium nitrite. Appearance: pale yellow clear liquid. Density (20 ° C): 1.13 ± 0.02, pH pure (20 ° C): 7.8 ± 0.3. viscosity (20 ° C): less than 30 cps, freezing temperature: less than -5 ° C, solids content of 44%.

Water repellent Silres BS 168 - 50-55% aqueous solution of potassium methylsilantriol, gives water-repellent properties and is used in hydrophobic paints and plasters. Appearance - a milky white emulsion with a solids content of 1 g / 1 h / 150 ° C - 55%, a density of about 1.4 g / cm3, pH of about 13 - 14.

Water repellent Silres BS 1001 is a solvent-free silane / siloxane emulsion suitable for dilution with water, a milky white emulsion with an active component content of about 50 weight. %, density of the order of 0.95 g / cm3, pH 8. The emulsion is stable and the hydrolysis process with the release of alcohol and the emergence of water-repellent silicone resin occurs only after applying the material to the substrate.

Silane A 187 - (3-glycidyloxypropyltrimethoxy silane), is a colorless liquid, is an organo-functional silane, acting as an adhesion promoter between inorganic materials (glass, metals, fillers) and organic polymers (thermoplastics, elastomers, etc. ) In the presence of water, the methoxy groups of Silan-187 are hydrolyzed to form silanol groups, which can chemically combine with many inorganic substrates. The organophilic functional glycidyl group of Silane-187 may react with a suitable polymer. The content of the main substance is 98%, the relative density is 1.0700, the specific gravity is 1.07 g / cm ³ .

Acrylic emulsion Akratan AS05.1 is an aqueous dispersion of a copolymer of styrene, butyl acrylate and acrylic acid. It is recommended for the production of paints and glues for construction purposes: interior and exterior paints, primers, putties, plasters, highly filled building adhesives, facade insulation systems. Technical characteristics: mass fraction of nonvolatile substances,% 50 ± 1, dynamic viscosity at t (23.0 ± 0.5) ° С - 0.5-1.8 Pa⋅s, pH 7.5-9, minimum film formation temperature (+19) ÷ (+21) ° С. low sensitivity to water.

Acrisol RW 8 is a non-ionic urethane rheology modifier designed to create highly effective, environmentally friendly, solvent-free interior and exterior paints with a low content of volatile organic substances. It looks like a turbid liquid, the solids content is 17.5%, Brookfield viscosity is 3500 cps, the solvent is water, the specific gravity (wet polymer) is 1.04, the type of chemistry is a hydrophobically-modified complex urethane copolymer based on ethylene oxide (HE1M).

Natrosol 250 is hydroxyethyl cellulose, a granular powder that dissolves quickly in water, forming clean, uniform solutions that exhibit pseudoplastic flow properties. High concentrations of soluble salts do not affect these solutions. Viscosity is slightly affected by weak acids and alkalis. Due to its non-ionic nature, Natrosol has a wide range of compatibility with other products, such as emulsion polymers, natural and synthetic resins, emulsifiers and anti-foaming agents. Natrosol acts as a viscosity modifier, rheological modifier, stabilizer and dispersant.

Purified water.

EXAMPLE No. 1

As an example No. 1, the protection of concrete glasses from damage during repair of supports for the canopy of the drainage platform on the railway is given. This type of coating was made with a thickness of 1.5 mm. Prior to this, various water repellents, bitumen-based materials were used to repair concrete glasses, but under the influence of UV rays and an aggressive environment, protection was enough for the summer period, and cracks formed in the winter period, which led to the destruction of both the protection itself and the upper concrete layer on the supports.

The claimed coating is made by applying layers based on the material of the Moutrical trademark in this case, a piston airless spray. Before applying the first layer of this composition, the concrete surface was dusted off with a stream of air under pressure. First, the layer was made of a composition containing, by weight. %: titanium dioxide 3.5, zinc phosphate 4, pigment Altiris 550 - 5, white carbon black BS 120 4, microtalc 3, silicone water repellent agent - Silres BS 1001 7.4, silicone water repellent agent - Silres BS 168 1, antifoam Foamaster 0.3 , glass microspheres 12, quartz airgel 3.8, preservative Parmetol A-26 0.2, biocide Bioban 536 0.2, coalescent Texanol 2.2, silane A 187 - adhesion promoter 0.3, acrylic emulsion Akratan AS05.1 38 , 6, corrosion inhibitor Ascotran 0.2, thickener Natrosol 250 - 0.3, thickener Acrisol RW 8 0.5, water 13.5 (total amount 100%), is applied to a concrete surface with a thickness of about 0.5 mm and withstands tsya to dry 20 minutes at 120 degrees ° C, at this moment on the concrete surface, three-dimensional network structure is formed, which protects it further alternately applied two coats of 0.5 mm thick. The curing time of each of these layers is about 60 minutes.

After more than 2 years of protection of the concrete cups of the supports by this coating, no cracks or damage were revealed, and the coating allowed to stop the deformation of the upper concrete layer that began before it was applied.

Moreover, for the claimed coating in the presence of three layers in comparison with the coating of the prototype, consisting of six layers, water absorption is lower by 50-75%, strength is higher by 25-30%, adhesion to the insulated surface is higher by 30-35%, heat transfer is lower by 40-50%, frost resistance is higher by 25-30 cycles, corrosion resistance is higher by 30-40%. Also, the resistance to ultraviolet radiation has increased - the destructibility under its action is reduced by 80-95%. Similar results were obtained for the described coating on brick surfaces. Also, the advantage of this model with respect to concrete or brick materials is that even with the already begun destruction of the structure from the action of aggressive factors, the destruction process is terminated due to the lack of oxygen access to aggressive elements that cause chemical reactions, as well as the formation of biological agents leading to destruction of structures.

The cured coating has flexibility, resistance to temperature changes, exposure to water, oil and gas products. It provides sealing, practical impermeability to water, chlorides and other salts, waterproofing of underground prefabricated and monolithic concrete and reinforced concrete and stone structures. This coating is intended for the protection of concrete, reinforced concrete and stone structures of transport infrastructure, industrial and civil construction, energy and oil and gas sectors (also used for the protective painting of concrete, brick and other porous substrates, galvanic production facilities. Concrete structures and structures used at the facilities Refineries, nuclear power plants, etc. with aggressive environments, high vibration loads, in the open, exposed to direct ultraviolet radiation Yolet rays and precipitation require periodic repairs, and often complete restoration. As a rule, repair or restoration of concrete during destruction causes a number of problems at existing enterprises, which are very difficult to stop for work. Concrete is an alkaline material with a capillary-porous structure , due to which it is vulnerable to acidic environments with a pH factor below 6. Reacting with lime, acids turn it into salts. This leads to the formation of efflorescence and a network of microcracks. Under the influence of aggressive environments and ultraviolet rays through the formed microcracks, both the surface and the volume of concrete or brick are destroyed. Multiple cycles of the difference in ambient temperatures even during the day lead to the formation of dew on a concrete or brick surface, and taking into account various mechanical influences, the service life of concrete or brick products is noticeably reduced. Deformation of the concrete base leads to distortions of any structures located on this base. When freezing concrete products, deformation of the connecting elements (reinforcement, wire, etc.) occurs. Through the resulting friability and microcracks, both moisture to the metal and other aggressive fluids penetrate. Soon, the process of concrete destruction becomes irreversible. Tests of the claimed coating showed the high efficiency of its use as a means of protecting concrete or brick, both on the insulated surface of the product and in its volume.

After the concrete product is poured (foundation, platform, beams, etc.) and its exposure to gain strength, the product is processed from all sides to obtain the claimed coating. The hydrophobic properties of the coating, high elasticity will completely prevent any moisture from entering the product and the formation of microcracks. The heat-insulating properties of the material stabilize the temperature in concrete, making it constant under various temperature influences, and freezing is completely prevented. Protection of the surface of concrete or brick, which is directly affected by atmospheric precipitation and ultraviolet radiation, by the declared coating will also prevent the formation of microcracks, washing out and loosening (spalling) of concrete or brick products.

EXAMPLE No. 2

As an example No. 2, an increase in thermal protection of the enclosing structures of a multi-storey brick residential building is given.

The coefficients of infrared radiation in brick ε (0.85 - 0.92), concrete ε (0.88) higher than the claimed coating ε (0.75), therefore, additional reflective layers are not required.

This coating is made by applying three layers based on the material of the Moutrical trademark piston airless spray, the total coating thickness was 1.5 mm. Before applying the first layer of this composition, leveling plastering work was carried out on the facade of the house, after which the surface was dusted off with a stream of air under pressure. The first layer was made from a composition containing, by weight. %: titanium dioxide 3.5, zinc phosphate 4, pigment Altiris 550 - 5, white carbon black BS 120 4, microtalc 3, silicone water repellent agent - Silres BS 1001 7.4, silicone water repellent agent - Silres BS 168 1, antifoam Foamaster 0.3 , glass microspheres 12, quartz airgel 3.8, preservative Parmetol A-26 0.2, biocide Bioban 536 0.2, coalescent Texanol 2.2, silane A 187 - adhesion promoter 0.3, acrylic emulsion Akratan AS05.1 38 , 6, corrosion inhibitor Ascotran 0.2, thickener Natrosol 250 - 0.3, thickener Acrisol RW 8 0.5, water 13.5 (total amount 100%), is applied to the surface of the facade with an airless spray in three moves approximately 0.5 mm thick and cured to dry for 120 minutes at 20 degrees C at this point on the surface of the facade is formed by a three-dimensional network structure which protects it further alternately applied two coats of 0.5 mm thick. The curing time of each of these layers is about 60 minutes.

These works were carried out in the fall, and in winter, the non-destructive testing laboratory performed thermal control by the non-destructive method of contact measurement of heat fluxes under operating conditions.

The effectiveness of coating the exterior walls of a residential building with an energy-saving coating based on Moutrical material under operating conditions was determined on the basis of instrumental examination in accordance with the requirements of SNiP 23-02-2003 “Thermal protection of buildings”, GOST 26254 - 84 “Buildings and structures. Methods for determining the heat transfer resistance of building envelopes ”, GOST 25380-82“ Buildings and structures. The method of measuring the density of heat flows passing through the building envelope. " GOST 26629-85 “Buildings and structures. The method of thermal imaging quality control of thermal insulation of enclosing structures. "

Based on the survey results, it was found:

1) The level of thermal protection (namely, the actual heat transfer resistance) of plastered external walls of silicate brick with a thickness of 520 mm with this coating with a thickness of 1.5 mm increases by an average of 70% compared with the data obtained from the results of field tests of the external wall of silicate brick 520 mm thick without coating.

2) The difference between the temperature of the internal air and the temperature of the inner surface of the building in defect-free zones is 2.7-3.0 ° C.

3) The temperature difference on the surface of the outer walls with this coating and without coating is on average 2 ° C, which confirms the increase in the level of thermal protection of the outer walling when the outer walls are insulated with a coating based on Moutrical material.

The results show that when applying this coating with a thickness of 1.5 mm on the facade of a brick multi-storey residential building, the level of thermal protection of external walls increases by an average of 70%.

The application of the claimed coating solves two opposite problems: reducing heat loss from the insulated surface and reducing the amount of solar energy entering through the surface insulated by the coating.

Given the combined high performance properties of the described coating, it is possible to argue for an increase in the life of the protected products by 20-25 years.

The advantages of the claimed invention are the cost of work and material, the life of the material, the speed of work.

Claims (1)

An energy-saving coating of a wide range of protection for a brick or concrete surface, containing several layers placed on the indicated surface made by sequential application of the composition, characterized in that it consists of three layers with a total coating thickness of 1.2-1.5 mm, each layer has a thickness of 0 , 4-0.5 mm and made of a composition having a composition, wt. %: titanium dioxide 3-5, zinc phosphate 3-6, pigment Altiris 550 4-6, white carbon black BS 120 3,5-5,5, microtalc 2.5-4.5, organosilicon water-repellent agent - Silres BS 168 0, 5-1, silicone water repellent agent - Silres BS 1001 6-8, antifoam Foamaster 0.2-0.4, glass microspheres 10-14, quartz airgel 2.8-4.8, preservative Parmetol A-26 0.1-0 , 3, biocide Bioban 536 0.1-0.3, coalescent Texanol 2-3, silane A 187 - adhesion promoter 0.2-0.4, acrylic emulsion Akratan AS05.1 35-40, corrosion inhibitor Ascotran 0.1 -0.3, thickener Natrosol 250 0.2-0.5, thickener Acrisol RW 8 0.4-0.8, the rest is water.