RU2267474C2 - Method for treatment of concrete and reinforced concrete products - Google Patents

Abstract

FIELD: building industry, in particular method for treatment of concrete and reinforced concrete products operating in hostile environment.

SUBSTANCE: claimed method includes mechanical and chemical cleaning followed by surface coating with protective composition. Chemical cleaning is carried out by surface treatment with detergent or surfactant to obtain visual cleanliness. Then wet surface is coated with neutralizing composition or aqueous solution thereof in neutralizing composition/water ratio of 1:1-1:20 in amount of 100-200 g/m³. Further surface is washed with large volume of water to obtain neutral pH, dried and dry surface is coated in one or more steps with protective color or colorless waterproofing composition or aqueous solution thereof in ratio of 1:0.5-1:2.

EFFECT: treated concrete and reinforced concrete surfaces with high waterproofing properties and freeze resistance, improved durability, vapor, soot, acid, alkali and oil resistance.

2 cl, 1 ex, 3 tbl

Description

The invention relates to the construction industry, in particular to the processing of concrete or reinforced concrete products with compositions that improve the quality of the processed products: preventing efflorescence, increasing frost resistance and durability, lowering water permeability, increasing corrosion resistance and improving other physical and mechanical characteristics during operation.

All traditional porous building materials, both natural (limestone, sandstone, marble) and artificial (brick, concrete, plaster) origin, are more or less susceptible to the formation of efflorescence. When operating under the influence of natural conditions during the migration, water leaches the soluble salts and alkalis contained in the building material and carries them to the surface of the product, for example walls, where, after interacting with carbon dioxide contained in the air and evaporation of moisture, they again become insoluble or poorly soluble crystalline form, forming a sparingly soluble white (less often colored) plaque. The damage caused by expulsions is not limited to the deterioration of the appearance of products (buildings, structures), when water evaporates, growing salt crystals break capillaries and microplanes, forming cracks and carpets on the surface of the product, as well as causing peeling of the plaster or protective-decorative coating layers.

To prevent this, hydrophobizing materials designed to create a barrier to penetration of moisture, snow, and other precipitation into microcracks and capillaries during operation are now widely used. Such materials are designed to increase capillary watertightness of concrete and reinforced concrete structures.

Known methods for cleaning concrete and reinforced concrete products (the journal "Building Technologies" (No. 2 (18), 2002), according to which a whitish coating, usually containing a "bunch" of chemical compounds such as sulfates, carbonates and silicates, is washed off with various cleaning compounds The most well-known means for removing sulfate and carbonate salts are used by the Sazi Tiprom OF cleaner, and Tiprom OZ cleaner for silicate salts and masonry mortar residues. Alkutex series cleaning compounds also allow the removal of certain types of zag yazneny.

The cleaners are applied to the surface with a brush, brush or roller, incubated for 10-30 minutes, after which the residues are washed off with water and the treated surface is treated with a hydrophobic compound, which imparts water-repellent properties to the treated surface. After hydrophobization, water is not absorbed, but is collected on the surface and drains from it without causing wetting. As a hydrophobizing composition, preparations are used based on organosilicon compounds, as a rule, sodium alkyl siliconates (GKZh-10, GKZh-11) of Silan JSC of TU 60511687721-0093 of the Dankov Chemical Plant, which form the thinnest (monomolecular) indelible film in the pores and on the surface of the protected material , preventing the penetration of liquid into the thickness of the product.

However, when sodium alkyl siliconates are used in surface treatment, two parallel reactions take place — hydrophobization and destruction of pores and capillaries by sodium crystalline hydrates formed by the interaction of sodium carbonate with water. As a result, the end result of such processing is simply unpredictable.

A known method of processing concrete and reinforced concrete products with a hydrophobic composition (RF patent No. 1837613, class C 09 K 3/10, priority 27.08.90), which consists in the fact that the surface of concrete products is subjected to the treatment of an aqueous emulsion of oxime-containing alkylalkoxysiloxane.

The water emulsion is applied in any way (dipping, spraying with a spray gun or by means of a water jetting machine) on the surface of concrete at the rate of 130 g / m ² with a single application.

The disadvantage of this method is its limited ability due to the presence in its composition of organic solvents.

Known cementing composition of capillary action "AQUABLOK PLUS" (RF patent No. 2132309, class C 04 V 28/00, priority 05.12.07), which is designed to increase the water tightness of monolithic or prefabricated concrete and reinforced concrete structures operating in wet conditions and giving them water resistance and water-repellent properties. "AQUABLOK PLUS" includes a binder (white cement, Portland cement or a mixture of 100 wt. G), a filler (silica feldspar sand 6-30 wt. G), a water-repellent additive (sodium methylsiliconate CH ₃ Si (OH) ₃ 0, 2-1.0 wt. G) and water (30-35 wt. G) added immediately before use. The binder and filler have a specific surface area of 2-3 m ² / g. EFFECT: obtaining a thin (about 1 mm thick) strong coating (up to 65 MPa per compression), increasing water resistance (up to W = 10) of monolithic and prefabricated concrete and reinforced concrete structures.

The closest technical solution to the claimed one is “Composition for protecting concrete surfaces and a method for protecting concrete surfaces (RF patent No. 2072335, class C 04 B 41/62, priority 16.10.1995), according to which the protective composition includes cement, sand, inorganic ionogenic additive and water in the following ratio of components, wt.%: sodium nitrate 0.9-1.8; sodium carbonate 2.0-3.0; sodium sulfate 2.5-3.6; calcium chloride 0.05-0.15; calcium carbide 0.75-1.15; calcium hydroxide 0.8-1.0; cement 36.0-40.0; sand 39.0-49.0; the rest is water. A method of protecting concrete surfaces consists in performing uniformly distributed recesses on the surface to be protected to the depth of the open pore system of concrete and applying a protective composition containing an inorganic ionic additive to it. First, the surface is cleaned of easily removable layers and foreign inclusions by scrapers or sandblasting. Then, 5 recesses are performed on 1 m ^{2 of the} surface (one in the center and 4 in the corners of the square) with a diameter of 10 cm and a depth of 0.5 cm, which corresponds to the depth of natural carbonation of concrete to the open mouths of concrete pores. The total area of the formed mesh surface is 1.18 m ² . Then the cellular surface is moistened and covered with a layer of 0.4 cm of a protective composition, which includes an inorganic ionic complex additive. The protective composition is applied manually or mechanically. 12 hours after applying the composition, the surface of the building is protected. The area of the cellular surface is selected in the range of 1.15-1.36 the area of the protected surface. Physical and mechanical tests of the protected surface showed: the degree of colmatation is 95-100%, the compressive strength is 50 MPa, the tensile strength is 7 MPa, the adhesion to old concrete is destruction on old concrete, water resistance after applying the protective layer is 16 tehn.atm, and after removal - 14 tech.atm., frost resistance 300-350 cycles, setting time - 25-40 minutes.

The disadvantage of this method is the limited use of it, since it is mainly applicable to large surfaces and, in addition, when it is used, the surface subjected to processing is violated.

The objective of the proposed method for processing concrete and reinforced concrete products is to create a method that will eliminate the above disadvantages and get protected surfaces of products with high moisture and frost resistance, providing high water resistance, durability, protection against efflorescence, resistance to dirt vapors, soot and oils, and also increase the conservation of architectural and artistic appearance in conditions of high humidity and temperature difference.

This is achieved by treating concrete and reinforced concrete products by mechanical and then chemical cleaning and applying a protective composition to the surface. During chemical cleaning, the surface of the product is treated with detergent "Hostess" or "surfactant P-XX1" to visual purity. After that, the neutralizing composition “Antisol” or its aqueous solution is applied in an amount of 100-250 g / m ² to a wet surface with an “Antisol”: water ratio of 1: 1-1: 20, then the surface is washed with a large amount of water until neutral , dried and on a dry surface once or in several passes until the absorption of the treated surface ceases, a colorless or color hydrophobizing composition “Hydroshield Super” or its aqueous solution is applied as a protective composition in a ratio of 1: 0.5-1: 2. At the same time, a color water-repellent composition is obtained by adding acrylic paint to the water-repellent composition “Hydroshield Super” in the ratio acrylic paint: water-repellent composition equal to 1: 1-1: 100.

Detergent "Hostess" is characterized by TU 480-1-277-94, manufacturer MNPO "Mostonap", Moscow.

"Surfactant P-XX1" is an anionic surfactant of the class of alkylbenzenesulfonates, of the general formula: (RC ₆ H ₄ SO ₃ ) n × M, where R = C _n H _{2n + 1} (n = 10-14); n is 1, 2; M = Na, K, Ca, NH ₄ .

As a water-repellent composition, the Gidroshchit-Super water-dispersible water-repellent composition is used, OOO "Explorer XXI" TU 2229-001-18803389-2000 or TU 2310-001-18803389-2002, which is an aqueous dispersion of alkylsiliconosiloxanes, to which, if necessary, non-metal-containing coloring pigments are added pastes, for example pigment paste, which is well compatible with the composition of the hydrophobizing composition fix 200 Farben (Voliton, Germany) or universal tinting pastes of the Byt-Service Company (Podolsk) by preparing an aqueous solution pa in the ratio of pigment to hydrophobicizing composition as 1: 1-1: 100.

As a neutralizing composition, Antisol LLC Explorer XXI LLC TU 2458-001-18803389-2000 is used, which is an aqueous solution of an inorganic substance containing elements of groups V, VI and VII of the periodic table with a surfactant.

When applying neutralizing and hydrophobizing compositions, the following processes occur: mechanical cleaning of the treated surface and processing with detergents, and then with the neutralizing composition, helps to clean both the surface itself and pore formations from various chemical compounds, for example, chemical efflorescences containing both soluble and and insoluble compounds: potassium carbonate, sodium carbonate, sodium sulfate.

The hydrophobizing composition is intended for volumetric and surface protection against the effects of water and moisture by reducing water absorption, increasing water resistance, which in turn increases frost resistance and durability, prevents the formation of efflorescences, as well as the appearance of rot, fungus, mold in places of direct contact of the product’s surface with wet Wednesday. The addition of pigment pastes to the water-repellent composition improves the architectural and artistic appearance of the product during long-term operation in conditions of high humidity and temperature difference.

The used parameter limits in the method are determined experimentally, going beyond the lower parameters of the parameters worsens the processing results, and going beyond the upper limits does not improve the achieved result, but lead to unjustified consumption of components, which affects the cost of processing.

A specific example of the method.

The treated surface of a concrete wall made of architectural stones, covered with sunflowers, pre-cleaned of mechanical impurities and grease stains, is treated with the Hostess detergent, an aqueous solution of the neutralizing composition “Antisol” is applied with a brush with a dilution ratio of 1:10, respectively, “Antisalts” with water based on 100 g / m ^{2 of the} treated surface. The composition is applied once, incubated for 5 minutes and the surface is washed with water under pressure using high pressure aggregates. Preventing drying, washing is carried out until neutral. Then it is dried at a temperature of 10 ° -18 ° C for 15-20 minutes and the dry surface is treated with a hydrophobizing water composition "Hydroshield Super" at the rate of 80 g / m ² . The composition was prepared in the ratio "Hydroshield Super" to water as 1: 1, to which Avi (France) non-metal-containing coloring pigment paste was added at the rate of 1: 1 (pigment paste to hydrophobizing composition). The composition is applied with a brush 2 times "wet on wet" until the absorption of the composition on the surface is stopped.

The total polymerization time is 24 hours.

After treating the surface of the concrete wall with the proposed method, the original color is restored, efflorescence disappears, salt migration ceases, moisture saturation decreases, vapor permeability remains, frost resistance increases, heat loss decreases, and the effect of “self-cleaning” appears.

Table 1 shows the remaining examples of execution of the proposed method.

Table 2 shows the comparative characteristics of the hydrophobizing material “Hydroshield-Super” used in the proposed method for processing concrete and reinforced concrete products, and the hydrophobizing material GKZh-10 (11), which is widely used for treating building surfaces.

Table 3 shows some physical and mechanical properties of the treated surfaces.

The data in the tables indicate that the proposed method of processing concrete and reinforced concrete products provides high physical and mechanical properties, the best strength properties, provides high water resistance and surface strength, high frost resistance, durability and improves the architectural and artistic appearance and saving of consumable components.

Claims (2)

1. The method of processing concrete and reinforced concrete products by mechanical and then chemical cleaning and applying a protective composition to the surface, characterized in that during chemical cleaning the surface of the product is treated with detergent "Hostess" or "surfactant P-XXI" until visual cleanliness, then on a wet surface is applied in an amount of 100-200 g / m ² neutralizing composition "Antisol" or its aqueous solution at a ratio of "Antisol": water of 1: 1-1: 20, and then the surface is washed with water until neutral reaction , Dried and the dry surface once or in several passes to termination soaking the treated surface is applied as a protective composition, colorless or color hydrophobizing composition "Gidroschit Super" or its aqueous solution in a ratio of 1: 0.5-1: 2. 2. The method according to claim 1, characterized in that the color water-repellent composition is obtained by adding acrylic paint to the water-repellent composition "Hydroshield Super" in the ratio of acrylic paint: water-repellent composition 1: 1-1: 100.