RU2656630C1 - Method for removing bloom and restoration of surfaces of items from decorative concrete - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to methods for suppressing blooms and restoring surfaces of items made from decorative concrete, mainly architectural ornaments replacing marble, facing tiles for interior and exterior decoration, window sills, tabletops, tombstones, sculptures, etc., in order to improve the appearance of the products. Method for removing and recovering the surface of a concrete product, based on the exposure of the product in water and drying with the subsequent mechanical cleaning of the surface of the product from the bloom, whereby the product is held in water in a volume of water of not less than one volume of the product at a rate of 12 hours soaking for every 10 kg of product weight, and after drying and mechanical cleaning, the product is coated with fat at a rate of 150 g/m² followed by heating at a temperature of 15 °C for at least 6 hours.

EFFECT: technical result is an increase in efficiency and a reduction in the number of technological operations.

5 cl

Description

The invention relates to methods for suppressing efflorescences and restoring surfaces of concrete products, mainly architectural decorations, replacing marble, tiles for interior and exterior decoration, window sills, tabletops, tombstones, sculptures, etc., in order to improve the appearance of products.

There is a method of eliminating sulfate efflorescences on the surface of ceramic cladding products (bricks, tiles, tiles, etc.) [RU 2119468 C1, С04В 33/08, 09/27/1998], based on the fact that they are introduced into the raw material charge before manufacturing the product 0 5-2 wt. % high alumina cement, followed by molding, drying and firing.

The method is characterized by relatively high complexity and low cost. During its implementation, significant difficulties arise due to the need for homogenization of the additive in the main clay mass. In addition, the binding effect of water-soluble sulfates depends on the composition of high-alumina cement, which does not remain constant.

In addition, the method is characterized by a relatively narrow scope, as a result of which it is not used for products from decorative concrete.

Another well-known method [Chernova OA, Matyatin L.A. Production of ceramic wall materials and tiles. Book 1. Raw materials. The choice of production technology. - M., 1982, 104 pp.] Consists in the fact that barium compounds (BaCO ₃ , BaCl ₂ ⋅ 2H ₂ O, Ba (OH) ₂ ⋅ 8H ₂ O) or barium-containing waste converting water-soluble are introduced into the raw materials for the manufacture of products sulfates of sodium, potassium and calcium in the insoluble salt of BaSO ₄ .

The disadvantage of this technical solution is the high cost of barium-containing compounds, the presence of fine dust-like fractions in dry products, the tendency of an aqueous suspension of barium carbonate to stratify with the formation of a dense precipitate, the increased toxicity of products, their belonging to the group of hazard substances I and II.

In addition, the method is characterized by a relatively narrow scope, as a result of which it is also not used for products from decorative concrete.

In addition to the above, there is a known method of suppressing efflorescence from products [RU 2198858 C2, C04B 33/08, C04B 33/04, 02/20/2003], which includes introducing barium compounds into the raw material mixture, molding, drying and calcining, wherein barium compounds are used an aqueous solution of waste thermal barium salt of the following composition, wt. %: BaCl ₂ - 20 ± 5, other salts: chlorides K, Na, Ca, nitrates K and Na - 10 ± 5, water - the rest, which is introduced into the mixture in an amount of 1.0 or 2.2 wt. %

The disadvantage of this technical one is that, although its toxicity is reduced, its disadvantages remain, such as the high cost of barium-containing compounds, the presence of fine dust fractions in dry products, and the tendency of an aqueous suspension of barium carbonate to stratify to form a dense precipitate. This method is also characterized by a relatively narrow scope, as a result of which it is not used for products from decorative concrete.

The closest in technical essence to the proposed is a method of cleaning from efflorescence [RU 2303585 C2, C04B 41/00, B28B 11/22, 07/27/2007], including mechanical cleaning of the surface, treatment with an aqueous solution of detergent, exposure, washing with water, drying, applying at least two passes of the hydrophobizing composition, the nature of the surface contaminants being preliminarily determined, the detergent, depending on the nature of the contaminants, is selected either of the acid type or alkaline type, the exposure before washing with water is performed vlyayut not more than 60 seconds and by applying water repellent composition is carried out before the second passage shutter for a period of time required for complete absorption of water repellent composition applied in the first pass.

The disadvantage of this method is its relatively low efficiency in relation to products from decorative concrete, since only the efflorescence that has appeared on the surface is removed and its subsequent manifestation is not excluded. In addition, the known method has a relatively high complexity, caused by the need to determine the nature of the pollution and the use of detergents in two passes.

The task is to develop a method for eliminating efflorescence and restoring the surface of decorative concrete products with higher efficiency and simplicity.

The required technical result is to increase the efficiency of cleaning from the efflorescence and simplify the method.

The problem is solved, and the required technical result is achieved by the fact that in the method based on the exposure of the product from decorative concrete in water and drying, followed by mechanical cleaning of the product surface from height, according to the invention, the product is exposed to water in a volume of water of at least one product volume over a period of 12 hours per 10 kg of product weight, and after drying and mechanical cleaning from the floor, the product is sanded with manual or machine tools (if gloss is required surface) or not sanded (if a matte non-slip surface is required) and coated with grease, for example vegetable oil, at a rate of 150 g / m ² followed by an exposure of 6 to 48 hours.

In addition, the required technical result is achieved by the fact that the exposure of the product is carried out in running water.

In addition, the desired technical result is achieved by the fact that as vegetable oil use sunflower or corn oil.

In addition, the required technical result is achieved by the fact that after drying the product, additional control exposure of the product in water is carried out for 12 hours, followed by additional drying at a temperature of 15 ° C for 6 hours or more.

In addition, the desired technical result is achieved by the fact that before coating the product with vegetable oil, the surface of the product is ground and polished.

The proposed method for removing efflorescence and restoration of surfaces of products from decorative concrete is implemented as follows.

Vysol - the yield of organic and inorganic salts on the surface of concrete products, expressed in whitish matte streaks and deposits. Such outputs are manifested, in particular, on the surfaces of decorative concrete products made from cement-sand mix, for example, according to the technology TU 5746-132-46854090-02 (Sistrom LLC). Such products are indistinguishable from marble in their external characteristics, and surpass natural stones in a number of physicochemical parameters. At the same time, the specifics of the technology for manufacturing products from such concrete involves the use of various chemical and natural additives containing salts. Although the problems of efflorescence are typical for products from any type of concrete, they are of particular importance in the production of decorative concrete products, which are used to replace marble products, which makes it necessary to preserve the appearance of the product for as long as possible.

Typically, in the manufacture of products from decorative concrete under marble, these products, after being removed from the molds, have a beautiful glossy shine (if the fill form is glossy) and a natural marble pattern from pigments embedded in the production. But when simple water gets on the glossy surface of the product, it is absorbed into the surface and pushes up the salt. These salts coat the product with white powder and are relatively easy to remove from the surface, but nevertheless they destroy the surface glossy layer of the product. As a result, a whitish matte stain forms on the product where water has entered, which cannot be erased or somehow removed.

The usual manufacturing process of a product involves removing it from the mold after 24 hours or more after pouring concrete and, as a rule, salts are formed inside the product. To remove these salts, they use such a property of concrete as its hygroscopicity, as well as the possibility of dissolving the salts with water. When a concrete product is placed in water, the salts contained in it are pushed out by water onto the surface of the product. For this, the product is immersed in water in a volume of at least one volume of the product and preferably flowing for more intensive washing and dissolution of salts. The exposure time in water is at least 12 hours for every 10 kg of the product. After immersion in water and drying, a white salt powder appears on the surface of the product, which is removed mechanically by wiping the product. Moreover, the surface of the product, as a rule, remains whitish and matte even after removal of the powder.

To increase the reliability of removal of efflorescence, the surface of the product is treated with water. If, after the water has dried, a whitish precipitate appears again, the product is soaked for another 12 hours, followed by additional drying for at least 6 hours.

If salt powder does not appear, then the product is sufficiently aged in water.

The developed salt powder is erased from the surface of the product, after which, for high-quality products, their surface is polished and polished with hand tools or a grinder. Thus restore the gloss and presentation of the surface.

After removing the salt powder or after grinding and polishing, fat, for example vegetable oil, is applied to the product at the rate of 150 g / m ² followed by exposure to a temperature of at least 6 hours from 15 ° C. Based on the hygroscopicity of concrete, it is preferable to use liquid colorless vegetable oil, for example, sunflower or corn, which penetrates the surface layer of the product and remains inside, giving greater brightness to the surface and further protecting the color from atmospheric precipitation, being a natural pore sealant, preventing them the subsequent appearance of efflorescence.

Thus, the proposed method with respect to products made of decorative concrete has a higher efficiency of cleaning from efflorescence, is simpler and safer relative to known technical solutions, which is proved experimentally.

Claims (5)

1. The method of removing the efflorescence and restoring the surface of the product from concrete, based on the exposure of the product in water and drying, followed by mechanical cleaning of the product surface from height, characterized in that the product is exposed to water in a volume of water of at least one product volume at a rate of 12 hours soaking for every 10 kg of the product’s weight, and after drying and mechanical cleaning from the floor, the product is coated with fat at the rate of 150 g / m ² , followed by exposure at a temperature of 15 ° C for at least 6 hours. 2. The method according to p. 1, characterized in that the exposure of the product is carried out in running water. 3. The method according to p. 1, characterized in that the quality of the fat used is sunflower or corn vegetable oil. 4. The method according to p. 1, characterized in that after drying the product produce additional control exposure of the product in water for at least 6 hours, followed by additional drying for at least 6 hours 5. The method according to p. 1, characterized in that before coating the product with fat, the surface of the product is ground and polished.