RU2618077C2 - Composition for building materials impregnation - hydrophobizing composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to a composition for the impregnation of building materials - hydrophobizing composition, comprising wt %: calcium polysulfide 15-20, monohydric alcohols, straight or branched chain 0.02-0.05, carbon clusters fulleroid type in an amount 0.0001-2.0, water is the rest. The composition comprises a methyl or ethyl or isopropyl alcohols.

EFFECT: improvement of water resistance, corrosion resistance of products made of concrete, bricks.

2 cl, 1 tbl

Description

The invention relates to the production of building materials, specifically to compositions used for the impregnation of building materials. The technical result is an increase in moisture resistance, corrosion resistance of products from concrete, brick, gypsum, etc. Composition for the impregnation of building materials based on elemental sulfur and a new class of carbon - fullerenes. The composition contains, by weight. %: calcium polysulfide 15-20, monohydric alcohols of normal or isostructure 0.02-0.05, carbon clusters of the fulleroid type 0.0001-2.0, water - the rest. A method of treating a composition of water-repellent building materials comprises impregnating the above composition for 1-5 hours in an amount of 1.9-2.5 kg / m ² . Processing is carried out at normal temperature and atmospheric pressure.

A necessary condition for increasing the service life of building materials is their protection from the influence of natural atmospheric factors - humidity, temperature drop, ultraviolet and infrared radiation, as well as giving them acid and alkali resistant properties.

Currently, various compositions are known on organosilicon, bitumen, polymer and mixed substrates, which are applied to the surface of concrete, brick, gypsum, asbestos cement, slate, wood in order to protect them from moisture and destruction. In order to increase the strength, the concrete is impregnated with styrene to obtain a concrete polymer. Polymer concrete is obtained with an excess polymer content in concrete. By creating a polymer network inside the cavities of building materials, they protect the products from moisture, atmospheric factors of destruction (Yu.M. Bazhenov "Concrete Technology". M., 1986; Manual on the design of corrosion protection for stone, reinforced stone and asbestos cement structures ( SNiP 2.03.11-85), M., 1988).

However, materials based on oil, pentaphthalic, glyphthalic and other polymeric binders, as well as binders of petroleum origin are not weather-resistant.

Coatings based on epoxy binders are devoid of these drawbacks, but they do not have sufficient manufacturability, as they are two-component and do not penetrate deep into the coated material (VV Chebotarevsky "Varnishes and paints", M., Chemistry, 1983).

The present invention solves the technical problem of increasing the effectiveness of the composition for the impregnation of building materials.

The technical result from the impregnation of building materials is expressed in increasing the penetration depth to 32 mm, corrosion resistance of concrete products, brick, gypsum, slate, asbestos cement.

The proposed composition for the impregnation of building materials can also be used as an antiseptic for wood impregnation. The latter acquires hydrophobization and mushroom-resistant properties.

Closest to the claimed composition is a composition (RU 2001109179, publ. March 20, 2003), containing, by weight. %: calcium polysulfide 15-30, polyalcohols 0.005-0.5, dextrin 0.03-0.5, water - the rest.

This composition does not provide a large penetration depth.

The developed protection composition is convenient to use, the level of protection of materials can be adjusted by changing the temperature and concentration of the solution, as well as changing the multiplicity of processing.

It has been established that the developed method of hydrophobization is universal and effective as a way of protecting concrete, brick and other structures exposed to weathering by prolonged exposure to moisture, alternating temperatures, solar radiation, and biochemical destruction.

Processing can be carried out by impregnation by spraying, brushing, dipping.

Composition for the impregnation of building materials - hydrophobic composition, including, by weight. %: calcium polysulfide 15-20, monohydric alcohols of normal or isostructure 0.02-0.05, water - the rest, where a mixture of carbon clusters of the fulleroid type in the amount of 0.0001-2.0 wt. %, in which fullerene C60 is contained in an amount of 70-75 mass. %, fullerene C70 - 25-30 mass. %, higher fullerenes - 3-5 mass. % The composition contains methyl or ethyl or isopril alcohols.

The specified composition is obtained as follows. To a sample of calcium oxide (90 g), a small amount of 100-120 ml of water is added with stirring, then it is heated to boiling. Separately, sulfur powder (150 g) and a mixture of fullerenes (5 g) are prepared. Sulfur powder and a mixture of fullerenes are mixed and activated in an activator-type disintegrator at a rotor speed of 15,000 rpm for 15 seconds, then water (200-250 ml) is added and the resulting paste is mixed with calcium hydroxide, and a residual amount of water up to 1 L is added at the same time. boiling the mixture for 60-70 minutes is supported. As a result of the reaction, calcium polysulfide is formed (the reaction is described in the source: Ripan R., Chetyanu I. “Inorganic Chemistry.” Volume 1. M: Mir, 1971, p. 204).

In order to increase the penetration depth of the composition into the volume of products 10 minutes before completion of the heat treatment, monohydric alcohols (1-3 g) are added to the solution, then the solution settles and is filtered.

An example implementation of the invention

The composition for testing consists of masses. % 20 - calcium polysulfide, 0.05 - isopropyl alcohol, 0.001 - a mixture of fullerenes, the rest is water. The composition has a density of 1.15 g / cm ³ .

An experiment was conducted on the hydrophobization of concrete samples. Five samples were used (one control) and a hydrophobizing agent of the above composition. Samples were dust free and weighed on an electronic balance.

Water-repellent was applied to sample No. 1 by brush. The water repellent was applied to sample No. 2 in two layers, the second layer was applied ten minutes after the first. Sample No. 3 was placed in a chamber and processed by ultrasonic spraying for 10 minutes with dense fog. The sample was on a stand and did not touch the level of the hydrophobizer poured for spraying. Sample No. 4 — control — was not treated with a water repellent. Sample No. 5 was placed in a container with water repellent for 1/3 and kept for 10 minutes.

The mass of samples before and after hydrophobization are shown in table 1.

All samples were placed for a day in a cabinet for drying in a natural way, and after that, studies were conducted according to the method of visual assessment of the contact angle.

The experiment showed the penetration efficiency of the water repellent. According to the visual control of the contact angle, the penetration depth of the hydrophobizator during the processing of the sample by immersion was 12 mm (sample No. 5), and the processing in the laboratory unit under ultrasonic exposure was 14.1 mm (sample No. 3). Sample processing time was the same.

Claims (2)

1. Composition for the impregnation of building materials - hydrophobic composition, including, wt.%: Calcium polysulfide 15-20, monohydric alcohols of normal or isostructure 0.02-0.05, water - the rest, characterized in that carbon clusters of fulleroid are introduced into the composition type in an amount of 0.0001-2.0 wt.%. 2. Composition for the impregnation of building materials - a hydrophobic composition according to claim 1, characterized in that it contains methyl or ethyl or isopril alcohols.