RU2382007C1 - Composition and method for manufacturing of roasting free silica heat-resistant concrete - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: composition for manufacturing of roasting free silica heat-resistant concrete contains the following components, wt %: silica filler 60 - 80, finely ground dinas 8-16, finely ground bauxite 6-10, finely ground quartzite 4-10, sodium silicate slab in the form of nanosize particles 2- 4, water based on V/T 0.12-0.14. Method for manufacturing of roasting free silica heat resistant concrete from above mentioned composition consists in changeover of sodium silicate slab into nanosize particles by means of dehydrate dispersion of hydrated sodium silicate slab, which is finely ground down to specific surface of 2500-3000 cm²/g at the temperature of 200-600°C, mixing of dinas filler, finely ground dinas, bauxite and quartzite with addition of water mix of sodium silicate slab, having temperature of 80-90°C, and milky opal in the form of nanosize particles into their mixture in process of mixing, and then water with temperature of 80-90°C, mixing of produced mixture, moulding of items from it and their treatment by thermal shock at the temperature of 250-300°C for 1-2 hours. Besides finely ground bauxite and quartzite are produced by means of their joint dry grinding.

EFFECT: increased strength of dinas heat resistant concrete.

3 cl, 1 ex

Description

The invention relates to the building materials industry and can be used in the manufacture of products from non-fired dinas heat-resistant concrete.

The technical result is an increase in the strength and thermal resistance of products from dinas heat-resistant unbaked concrete.

A known method of manufacturing heat-resistant concrete based on compositions from natural and man-made glasses (1).

The disadvantage of this method is the use as a binder silicate block with a particle size of more than 1-100 microns, which at the point of dissolution in a binder or concrete form liquid glass, which cannot be evenly distributed in the mass of hardened concrete, which leads to an increase in the smooth-forming component and a decrease in strength and thermal resistance of concrete.

The closest, i.e. prototypes are a composition and a method of manufacturing non-fired refractory materials (2) using a composition that includes a sodium silicate block with a silicate module of 2.7-3, a refractory aggregate, a finely ground refractory filler, which provides for the joint grinding of a portion of the refractory aggregate and silicate block, as well as heating the components to 80-90 ° C with dry mixing, mixing with water heated to 80-90 ° C, molding by pressing at 40 MPa and drying at 250-300 ° C for 1-2 hours

A disadvantage of the known composition and method is that the particles of the silicate block after mechanical grinding have a size of more than 100 microns and therefore require a longer mixing time, and the uniform distribution of the formed liquid glass in the mixture is not achieved.

The purpose of the invention: increasing the strength of dinas heat-resistant non-fired concrete.

This goal is achieved in that the composition for the manufacture of unburned dinas heat-resistant concrete, including dinas aggregate, finely ground dinas, sodium silicate block and water, contains sodium silicate block in the form of nanosized particles and, in addition, finely ground bauxite and quartzite in the following ratio of components, wt .%:

Dinas placeholder 60-80 Fine Dinas 8-16 Fine bauxite 6-10 Fine quartzite 4-10

Sodium silicate block in the form of

nanosized particles 2-4 Water based on the calculation of W / T 0.12-0.14

This goal is also achieved by the fact that the method of manufacturing non-fired dinas heat-resistant concrete from the composition indicated above is to convert a sodium silicate block into nanosized particles by dehydration dispersion of a hydrated fine hammer to a specific surface of 2500-3000 cm ² / g of sodium silicate block at a temperature 200-600 ° C, stirring the dinas aggregate, finely ground dinas, bauxite and quartzite with the addition of an aqueous mixture of sodium silica having a temperature of 80-90 ° C while stirring t-cob and milky white opal in the form of nanoscale particles, and then water with a temperature of 80-90 ° C, stirring the resulting mixture, forming therefrom articles and their thermal shock treatment at a temperature of 250-300 ° C for 1-2 h. Moreover, finely ground bauxite and quartzite are obtained by their joint dry grinding.

The initial components that make up the raw mix for the manufacture of non-fired dinas heat-resistant concrete are as follows:

dinas aggregate of the desired fractions;

finely ground dinas with a specific surface of 2500-3000 cm ² / g;

fine bauxite with a specific surface of 2500-3000 cm ² / g;

finely ground quartzite with a specific surface of 2500-3000 cm ² / g;

sodium silicate block is a waste of the Ogninsky glass factory, finely ground to a specific surface of 2500-3000 cm ² / g;

water - any, except mineral waters.

The finely ground components are preliminarily prepared by separate grinding in a ball mill, bauxite and quartzite can be subjected to joint grinding, then the sodium silicate block is converted into nanosized particles with a size of 10-12 nm by dehydration dispersion of hydrated particles with the specified specific surface at a temperature of 200-600 ° FROM.

Using the claimed combination of essential features allows to obtain the achieved technical result, namely an increase in compressive strength after drying to 55-65 MPa.

Example. Pre-metered parts of dinas aggregate, quartzite, bauxite, silicate blocks are crushed in a dry grinding ball mill to a specific surface of 3000 cm ² / g, then into a heated concrete mixer with heating elements mounted on its body and equipped with thermal insulation, they are loaded into wt.%: Fraction fraction of dynamas 0.63 mm, finely ground dinas, bauxite, quartzite and mixed in dry form for 2-3 minutes, with continuous mixing, an aqueous mixture of nanosized particles of sodium silicate block having a size of 10-12 nm is heated to 85 ° C. Acquiring in the bubbler. Also, with continuous mixing, water preheated to 85 ° C is additionally added at the rate of a water-hard ratio of 0.14, and the mixture is mixed for 3-4 minutes. Products are pressed from this mass at a specific pressure of 30 MPa and heat treatment of products is carried out by thermal shock at 250-300 ° C in a drying chamber for 1.5 hours. The composition, process parameters and test results are shown in the table.

Nanosized particles of silicate block are obtained separately as follows. A finely ground sodium silicate block with a specific surface of 2500-3000 cm ² / g (for this example 3000 cm ² / g) is hydrated and placed in cuvettes located in quartz tubes that are located in the furnace. Acute water vapor is introduced into the tubes and heated to 200-600 ° C (in this example, 600 ° C). In this case, the nanosized particles are carried away by the steam and after the refrigerator they enter the steam traps and the barbators. Then, samples are taken from the steam traps and barbers and the chromatographic analysis determines the quantitative and qualitative content of nanoparticles in the barbator and the condensate collector and, upon reaching a sufficient amount of their content for the above concrete mix, the aqueous nanoparticle mixtures from the barbate and steam traps are heated to 80-90 ° C and used for preparation concrete.

Moreover, the values of the mass percent of the corresponding nanoparticles are established by quantitative chromatographic analysis of the aqueous mixture from the bubbler in the process of obtaining them.

The proposed composition and method provide a structurally stable product without preliminary firing, increasing the strength, operating temperature and thermal stability of the products due to the complete dissolution of nanosized components of sodium silicate and caustic dolomite with fine particles of aggregates and concrete aggregate, as well as by their uniform distribution in mixtures during the mixing process.

Literature

1. Gorlov Yu.P., Merkin A.P., Zeifman M.I., Toturbiev B.D. Heat-resistant concrete based on natural and man-made glass compositions. - M .: Stroyizdat, 1966 .-- 144 p.

2. A method of manufacturing non-fired refractories. Toturbiev B.D., Batyrmurzaev Sh.D. A.S. USSR No. 1701693, BI No. 48, 12.30.91.

Claims (3)

1. The composition for the manufacture of unburned dinas heat-resistant concrete, including dinas aggregate, finely ground dinas, sodium silicate block and water, characterized in that it contains sodium silicate block in the form of nanosized particles and additionally, finely ground bauxite and quartzite in the following ratio of components, wt.%:
Dinas placeholder 60-80 Fine Dinas 8-16 Fine bauxite 6-10 Fine quartzite 4-10 Sodium silicate block in the form of nanosized particles 2-4 Water Based on W / T 0.12-0.14 2. A method of manufacturing non-fired dinas heat-resistant concrete from the composition according to claim 1, which consists in converting a sodium silicate block into nanosized particles by dehydrating dispersion of a hydrated fine hammer to a specific surface of 2500-3000 cm ² / g of sodium silicate block at a temperature of 200-600 ° C, mixing dinas aggregate, finely ground dinas, bauxite and quartzite with the addition of an aqueous mixture of a sodium silicate block and finely white opal in the form of their nanosizes in a mixture having a temperature of 80-90 ° C molecular weight particles and then water with a temperature of 80-90 ° C, stirring the resulting mixture, forming therefrom articles and their thermal shock treatment at a temperature of 250-300 ° C for 1-2 hours. 3. The method according to claim 2, characterized in that the finely ground bauxite and quartzite are obtained by their joint dry grinding.