RU2619608C1 - Impregnation composition for protection of concrete based on zinc hexafluorosilicate - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: impregnating agent for the protection of concrete contains, in wt %: magnesium hexafluorosilicate 5.0-26.0; magnesium stearate 0.1-2.0; water the rest.

EFFECT: increase the depth of penetration of the impregnating composition in the treated concrete, increase frost resistance and compressive strength of the impregnated concrete composition and reducing its peeling, protection against the penetration of treated concrete chemicals and oils, while reducing the cost of the impregnating composition.

1 tbl

Description

The invention relates to the chemical industry, namely to impregnating compositions, and can be used to protect the surface layer of concrete, cement-concrete and asphalt concrete coatings.

Concrete structures during operation are subjected to numerous destructive influences, including cyclic freezing and thawing, dynamic loads, the effects of natural atmospheric phenomena, etc.

Due to this, in actively exploited concrete structures, for example, such as roads, significant surface defects will form in a year. In the future, if repair and restoration measures are not carried out, irreversible destructive processes develop in the surface layer of concrete structures, leading to intensive destruction.

To increase the efficiency of the content of concrete structures, preventive measures are taken to protect them from destruction.

Protection methods include such types of application of protective materials as hydrophobic impregnation and impregnation on organopolymer and cement-water based.

Silanes and siloxanes can be used as hydrophobic impregnating compositions, which are of high cost and ineffective in conditions of salt corrosion of concrete.

Organopolymer-based impregnation when applied to concrete penetrates into the pores and capillaries of the surface layers of concrete, followed by polymerization without direct chemical attack with the mortar part of the concrete, so it is possible to delaminate the polymer film and further develop corrosion.

As a result of physicochemical interaction with cement stone, impregnating-clogging compositions form crystalline insoluble or poorly soluble neoplasms, clogging pores and capillaries, which is a promising method for protecting concrete structures.

The prior art "Impregnating composition on a polymer basis of the clogging action of ultra-cord to protect the surface layer of concrete, cement-concrete and asphalt concrete coatings" (see patent for invention RU 2516397 C1, published 05/20/2014), which includes an oil-polymer resin , solvent, toluene and antioxidant.

The main disadvantage of this impregnating composition is the difficulty of obtaining and the high cost of its components, and, as a consequence, the impregnating composition itself.

The prior art also known "Composition for hydrophobization of silicate building materials", taken as a prototype (see patent for the invention RU 2273623 C1, published 04/10/2006), which contains, by weight. %: sodium methylsiliconate 10-15, sodium hexafluorosilicate 0.8-1.2, phosphoric acid 0.2-0.25, talc 0.15-0.25, alumina 0.25-0.5, water - the rest .

The specified composition has cheap starting components and is easy to prepare, however, it has low indicators of penetration depth and moisture protection, leads to poor frost resistance and compressive strength of the impregnated material. In addition, the composition has a high viscosity.

The known "Method for producing magnesium hexafluorosilicate" (see patent BY 7658 C1, published December 30, 2005) with a maximum yield of the target product.

The task of the invention is the creation of an impregnating composition based on magnesium hexafluorosilicate, which increases the frost resistance and compressive strength of the concrete impregnated with the composition.

The invention provides the following technical results:

- increasing the penetration depth of the impregnating composition in the treated concrete;

- an increase in frost resistance and compressive strength of concrete impregnated with the composition;

- protection against penetration of chemicals and oils into the treated concrete, reducing its peeling;

- reducing the cost of the impregnating composition.

The problem is solved in that the impregnating composition for protecting concrete, including an aqueous solution of magnesium hexafluorosilicate, additionally contains magnesium stearate in the following ratio of components, wt. %:

magnesium hexafluorosilicate 5.0-26.0 magnesium stearate 0.1-2.0 water rest

The specified composition with the described ratio of components allows to increase the penetration depth of the impregnating composition into the treated concrete, increase the frost resistance and compressive strength of the concrete impregnated with the composition and reduce its peeling, reduce the cost of the impregnating composition, and also provide protection against chemicals and oils penetrating the processed concrete.

The impregnating composition is prepared as follows.

The dosed components, magnesium hexafluorosilicate (MgSiF ₆ ) and magnesium stearate (MgC ₃₆ H ₇₀ O ₄ ), are loaded into a container with water with the stirrer turned on. The loading begins with magnesium hexafluorosilicate, after which magnesium stearate is added. The mixture of the above components is mixed until smooth at a temperature of at least 19 ° C.

Impregnation technology.

The treated surface is cleaned and dried, after which, at a temperature of at least 14 ° C, an impregnating composition is applied to the treated surface, then the treated surface is maintained without operation for 24 hours, then the quality of the impregnation is monitored.

In the course of experimental research on the above technology, an impregnating composition consisting of, by weight, was applied to control concrete samples. %:

magnesium hexafluorosilicate 24 magnesium stearate 1,1 water rest

After application, at the age of 14 and 28 days, control samples were tested for compressive strength and frost resistance.

The research results are shown in the following table.

The depth of surface fluating of concrete depends on its density and structure of cement stone. Studies conducted on high-density concrete (SNiP 2.03.11-83) showed that the maximum impregnation depth is 5 mm.

Thus, the present invention allows to increase the penetration depth of the impregnating composition in the treated concrete, increase frost resistance and compressive strength of the concrete impregnated with the composition and reduce its peeling, reduce the cost of the impregnation composition, and also provide protection against chemicals and oils from penetrating the processed concrete.

Claims (2)

An impregnating composition for protecting concrete containing an aqueous solution of magnesium hexafluorosilicate, characterized in that it further comprises magnesium stearate in the following ratio of components, wt. %: magnesium hexafluorosilicate 5.0-26.0 magnesium stearate 0.1-2.0 water rest