RU2044015C1 - Composition for vapor-hydroinsulating coating - Google Patents

Abstract

FIELD: paint and varnish industry. SUBSTANCE: composition has, mas. p. butadienestyrene latex SKS-65GPB1 1; liquid water glass at density 1.46 g/cub. cm 0.05-0.1; ethylsilicate 0.01-0.015; mixture of alkylpolybenzylpyridinium chlorides 0.05-0.09; fly ash of chemical composition, wt.-% SiO₂ 59-61; Al₂O₃ 26-28; Fe₂O₃ 4-6; CaO 1-3; MgO 0.7-0.9; SO₃ 0,01-0,03; R₂O 2-4 at specific surface at least 4000 cm²/g. Composition is applied under pressure by mechanically. EFFECT: enhanced quality of composition. 2 tbl

Description

 The invention relates to building materials used for vapor barrier of the internal surfaces of wall and ceiling structures.

Known polymer composition for protecting concrete from water saturation, including titanium dioxide, chalk, talc, which are dispersed in an aqueous solution of target additives, and the resulting aqueous suspension is mixed with a film-forming polymer latex SKS-65 GP, or polyvinyl acetate emulsion [1]
The disadvantage of this composition is the complexity of its preparation, associated with the dispersion in an aqueous solution of the target additives for 6 hours and a relatively high water absorption.

The closest in technical essence to the invention is a composition for finishing building products [2] including styrene butadiene latex, water glass, organosilicon compound, mineral filler and water in the following ratio of components, wt. Styrene-butadiene latex SKS-65 GP "B" 1.0 Liquid glass 0.045 0.09 Ethyl silicate 0.005 0.01 Mineral filler (ground battle of facing ceramics) 1.4 1.5 Water 0.005 0.09
This composition forms protective and decorative coatings with high adhesion, frost resistance and decorativeness, but does not provide vapor-waterproofing and bactericidal protection of building envelopes operating in wet and humid conditions, and is notable for the complexity of preparation and increased energy costs associated with crushing and grinding of mineral filler.

 The purpose of the invention is the reduction of vapor and water absorption and increase the bactericidal properties of building materials in the enclosing structures of buildings and structures.

This is achieved by the fact that the composition for vapor barrier coating, including styrene-butadiene latex SKS-65 GP "B", liquid sodium glass, with a density of 1.46 g / cm ³ , ethyl silicate and mineral filler, contains ashes mineral fly ash of the Reftinskaya state district power station chemical . composition, wt. SiO ₂ 59 60.3; Al ₂ O ₃ 26 28; Fe ₂ O ₃ 4 6; CaO 1 3; MgO 0.7 0.9; SO ₃ 0.01 0.03; R ₂ O 2 4 with a specific surface area of at least 4000 cm ² / g and optionally catapine B, a mixture of alkyl-polybenzyl-pyridinium chlorides in the following ratio of components, wt. h. Butadiene-styrene latex SKS-65 GP "B" 1.0 Liquid sodium glass with a density of 1.46 g / cm ³ 0.05 0.1 Ethyl silicate 0.001 0.015 Fly ash of the Reftinskaya state district power station 0.15 0.25 Catapine B 0.05 0.09
As a mineral filler, an active ash-fly filler of the Reftinskaya state district power station of the indicated chemical composition was used. Upon receipt of fly ash with a specific surface below 4000 cm ² / h, it should be crushed in a ball mill to the required values.

 As a bactericidal additive, “catapine B” is used, which is a mixture of alkyl-polybenzylpyridinium chlorides according to TU 6-01-1026-75.

The introduction of a Reftinskaya TPP with a specific surface area of at least 4000 cm ² / h and a bactericidal additive catapine B into the composition for a vapor-waterproofing coating as a mineral filler of fly ash, solves the problem of reducing vapor and water absorption and increasing the bactericidal properties of building materials in building envelopes.

 After curing the proposed composition on the surface to be protected, an impermeable coating is formed for liquid and vapor-gas moisture.

The following components regulated by regulatory documents were also used in the composition according to the invention:
synthetic styrene butadiene latex SKS-65 GP brand "B", GOST 10564-75 or TU 103111-76; the ratio of styrene-butadiene 65/35 (wt.h.).

Ethyl silicate can be used both as grades 40 and 32 according to TU 6-02-895-86. Liquid sodium glass in accordance with GOST 13078-81 with a density of 1.46 g / cm ³ .

 The preparation of the composition for the vapor barrier coating is carried out in mixers of the type СО-46 in the following sequence. SCS-65GP "B" latex and catapine B are dosed and loaded and mixed for 5 minutes. Then fly ash is dosed and loaded, stirred for 5 10 minutes and liquid glass and ethyl silicate 32 (40) are introduced, the mixture is stirred for 5 10 minutes and filtered through a sieve with mesh N 0.14 0.3. The composition is applied mechanically under a pressure of 23 24 MPa.

 The insulating coating is an elastic film which is impermeable to water and steam, which is formed on the surface to be protected by applying the required number of layers of the protective composition.

 The vapor permeation test of coatings (free films) was carried out according to OST 10086-39. To obtain free films, the coating was applied to a thin foil and, after drying, the foil was carefully (so as not to deform the film) separated from the coating.

For the study of concrete treated with a vapor-waterproofing composition, concrete prisms of 4 x 4 x 16 cm in size were prepared, the composition of the CPU was 1: 3 with rounded edges. After drying part of the sample coatings were placed in a steam chamber at 80 ^{° C,} another part of the water at 20 ° ^C. After 24 hours the samples were removed and the absorbance of water and water vapor in accordance with GOST 12730.3-78. They tested both the known (prototype) and the proposed composition. A total of 4 mixtures of ingredients were prepared (see table. 1).

 Physico-mechanical characteristics of the proposed and known compositions are given in table. 2.

 From the table. 2 it follows that the proposed composition for vapor barrier coating has 10 times less vapor permeation, the absorption of water vapor by concrete and 3 times lower water is reduced by 2.5 times. In addition, the resistance of concrete to the aggressive effects of microorganisms is increased, which allows to increase the service life of building envelopes operating in wet and wet conditions.

Claims (1)

COMPOSITION FOR STEAM WATERPROOFING COATING, including SCS 65 GP "B" styrene-butadiene latex, liquid sodium glass with a density of 1.46 g / cm ³ , ethyl silicate, mineral filler, characterized in that it contains fly ash of the Reftinskaya state district power station of the following composition wt. SiO ₂ 59 62
Al ₂ O ₃ 26 28
Fe ₂ O ₃ 4 6
CaO 1 3
MgO 0.7 0.9
SO ₃ 0.01 0.03
R ₂ O 2 4
with a specific surface area of at least 4000 cm ² / g and optionally Catapin B based on alkyl-polybenzylpyridinium chlorides in the following ratio of components, wt. h Styrene-butadiene latex SCS GP "B" 1
Liquid sodium glass with a density of 1.46 g / cm ³ 0.05 0.1
Ethyl silicate 0.01 0.015
Fly ash of Reftinskaya TPP 0.15 0.25
"Catapine B" 0.05 0.09

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