RU2653164C1 - Building mixture - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the production of building materials and products, in particular to structural and heat-insulating lightweight concrete for enclosing structures, and can find application for the manufacture of lightweight construction products and structures with increased heat-saving properties and plaster solutions for thermal insulation coating of the external and internal sides of the walls of building structures. Building mixture includes, by mass %: hollow microspheres of fly ash and / or hollow microspheres of foam glass with diameters of 10 mcm – 2 mm and bulk density of 100–360 kg/m³ 61–80, expanded pearlite sand or expanded perlite sand hydrophobized 4–18, portland cement 8–10, polymeric binder is an aqueous copolymer emulsion based on acrylic or methacrylic acid derivatives 8–12.

EFFECT: decrease in density, increase of moisture resistance, heat-insulating and sound-absorbing properties while providing high strength characteristics of the building material.

1 cl, 1 tbl

Description

The invention relates to the production of building materials and products, in particular to structural and heat-insulating lightweight concrete for building envelopes, and can be used for the manufacture of lightweight building products and structures with enhanced heat-saving properties and plaster mortars for the thermal insulation coating of the external and internal sides of walls of building structures.

Closest to the proposed invention in technical essence and the achieved result is a building mixture for structurally insulating concrete containing, by weight. %: cement - 25.4-30.9; aggregate - fly ash of 6.2-13.1; hollow microspheres from ash and slag waste of state district power station fractions of 20-200 microns and water - the rest (patent RU No. 2154619 C1, 2000).

The disadvantages of the known building mixture are high bulk density, high thermal conductivity and low moisture resistance, which does not sufficiently meet the requirements of SNiP for building envelopes and causes an increase in the thickness of products for building envelopes operated at low temperatures, and their associated weighting structure and increased consumption of materials and, as a rule, requires an additional device for thermal insulation coatings of building envelopes s.

The technical problem to be solved by the invention is to create a light high-strength material for building envelopes with low density and high heat-insulating and sound-absorbing properties and moisture resistance and its low cost while ensuring the strength and heat-insulating characteristics required by SNIP.

The specified technical result is achieved in that the building mixture contains hollow microspheres of fly ash and / or hollow microspheres of foam glass with diameters of 10 μm - 2 mm and a bulk density of 100-360 kg / m ³ , perlite is expanded or perlite is hydrophobized, cement and a polymer binder in the following the ratio of components, wt. %:

specified microspheres of fly ash and / or foam glass microspheres 61-80 expanded perlite or hydrophobized perlite 4-18 cement 8-10 polymer binder 8-12

The achievement of the specified technical result is achieved by preparing a building mixture based on a mixture of fractions of microspheres with small particle diameters and low bulk density in the declared values, which ensures a decrease in the density and thermal conductivity of the material manufactured using the proposed mixture, and a decrease in water absorption of the material and, accordingly, provides an increase in heat insulating and sound-absorbing properties of the material and their stability while ensuring high strength of the material.

The inclusion in the composition of the building mixture of cement in the claimed ratio of components provides increased strength and high vapor permeability of the manufactured material.

The inclusion in the composition of the building mixture of a polymer binder in the claimed ratio of the components increases the strength of the weather resistance and moisture resistance of the manufactured material. Characteristics of the starting materials for the preparation of the mixture.

1. Hollow microspheres of fly ash.

Aluminosilicate hollow microspheres with a diameter of 10 μm - 2 mm, a shell thickness of microspheres of 5-10 μm and a bulk density of 100-360 kg / m ³ from fly ash of a state district power station.

2. Hollow microspheres of foam glass.

Hollow microspheres of granular foam glass obtained by foaming a mixture of fine glass (bottle glass breakage) with a blowing agent, fractions with a microsphere diameter of 10 μm - 2 mm and a bulk density of 100-360 kg / m ³ .

3. Perlite expanded or perlite hydrophobized.

Expanded perlite sand of grades M75 - M150 GOST 10832-2009 and expanded perlite sand of the same grades are hydrophobized.

4. Cement. Portland cement of grades ПЦ300 - ПЦ500 GOST 10178-85.

5. Polymer binder. Aqueous copolymer emulsions based on derivatives of acrylic and methacrylic acids for decorative plasters, building primers and adhesives.

For experimental verification of the properties of a building material manufactured in accordance with the proposed composition of the building mixture, standard prototypes were made using various ratios of the above mixture components in the ranges of their values.

Prototypes were made as follows.

As starting materials for the manufacture of prototypes in accordance with the proposed composition of the building mixture were used:

- hollow microspheres from fly ash of the Kashirskaya TPP with a diameter of 10 μm - 2 mm, a shell thickness of microspheres of 5-10 μm and a bulk density of 100-250 kg / m ³ ;

- sand and powder containing hollow microspheres of foam glass, fractions with a diameter of microspheres of 10 μm - 2 mm and a bulk density of 100-250 kg / m ³ , produced by JSC NPO Stekloplastik, Moscow Region. and production "Rybinsk Plant of Building Technologies", Rybinsk (TU 5914-001-15068529-2006);

- expanded pearlite sand, grade M75, grain size 0.16-1.25 mm bulk density up to 75 kg / m ³ , and grade M150, grain size 0.16-2.5 mm bulk density 100-150 kg / m ³ GOST 10832-2009 and expanded perlite sand of the same grades hydrophobized;

- Portland cement grade PC 500 GOST 10178-85 manufactured by CJSC Oskolcement, Stary Oskol;

- water copolymer emulsion based on acrylic acid esters of the RUZIN-17 brand manufactured by SVAN LLC, Dzerzhinsk, Nizhny Novgorod Region (TU 2241-012-57845517-2014).

The components were pre-mixed in a dry state: fly ash microspheres, foam glass microspheres, expanded perlite sand or hydrophobized expanded perlite and cement taken in quantities corresponding to the declared composition of the building mixture, based on a standard sample with dimensions of 10 × 10 × 10 cm. Mixing of the dry mixture was carried out for 5 minutes

Next, a polymer binder was added to the dry mixture in an amount corresponding to the declared composition of the building mixture, and water in the amount necessary for mixing the mixture, and the components of the mixture were mixed together for 5 minutes. Then, molding and vibration compaction of the mixture in the form with a load of 22 g / cm ^{2 were} carried out for 3 minutes.

Examples of the manufacture of building material in accordance with the proposed composition of the building mixture and the experimental data of the manufactured samples of the material are presented in Table 1.

The data of experimental tests of the samples, shown in Table 1, indicate that the structural building material made from the proposed building mixture, in comparison with the known structural and heat-insulating material, has lower density and thermal conductivity, high sound absorbing properties and high water resistance while ensuring high strength .

Thus, the proposed building mixture allows the manufacture of building products and structures with improved heat-insulating, sound-absorbing properties and moisture resistance while ensuring high strength characteristics that meet the requirements of SNIP to load-bearing building envelopes, at a low cost.

The proposed building mixture is also highly effective for use as a filler for the voids of lightweight concrete products and as a part of plaster mortars for heat-insulating coating of the external and internal sides of the walls of building structures due to the high heat-insulating and sound-absorbing properties and moisture resistance of the resulting coatings.

Claims (2)

A building mixture comprising hollow microspheres and cement, characterized in that as hollow microspheres use hollow microspheres of fly ash and / or hollow microspheres of foam glass with diameters of 10 μm - 2 mm and bulk density of 100-360 kg / m ³ , use cement as a cement Portland cement and the mixture additionally contains expanded perlite sand or hydrophobized perlite sand and a polymer binder - an aqueous copolymer emulsion based on derivatives of acrylic or methacrylic acid in the following ratio, wt. %: specified microspheres of fly ash and / or foam glass microspheres 61-80 expanded perlite sand or water-repellent perlite sand 4-18 Portland cement 8-10 polymer binder - water copolymer emulsion on based on derivatives of acrylic or methacrylic acid 8-12