RU2304127C1 - Dry mix for manufacture of non-autoclave aerated concrete and a process for preparing it - Google Patents

Abstract

FIELD: manufacture of building materials.

SUBSTANCE: invention relates to fabrication of products from cellular concrete and can be applied at cellular concrete product plants and in cast-in-place construction for filling canals and hollows in masonries as well as for manufacturing heat-retaining slabs. Dry mix additionally containing textile cord is composed of, wt %: Portland cement 40.1-45.8, lime 8.1-9.2, ground sand 41.3-48.0, textile cord 3.5-8.5, and aluminum powder 0.210-0.214. In a non-autoclave aerated concrete manufacturing process including preparing raw mix, molding paste, and ageing, preparing raw mix is accomplished through jointly grinding ground sand and aluminum powder on ball mill followed by adding cement, lime, and textile cord to the mill and performing additional grinding. Thus obtained dry aerated concrete mix is charged into mixer, mixed with ashes, and allowed to stand until complete swelling is attained. Resulting mix is poured to required hollow.

EFFECT: simplified process, expanded technological possibilities, and improved performance characteristics of concrete.

8 cl, 1 tbl

Description

The invention relates to the production of building materials and products from cellular concrete, porous with gas, and can be used in factories of cellular concrete products and in monolithic construction to fill channels and cavities in the masonry of stone walls, as well as for the manufacture of heat-insulating plates.

The known composition of the raw mix to obtain aerated concrete, containing the following components, wt.%:

Cement 15-50 Sand 31-42 Aluminum powder 0.10-1.0 Caustic soda 0.05-0.45 Water Rest

(patent No. 2255073, publ. 06/27/2005).

The disadvantages of the known mixture are the complexity of its preparation due to the need to comply with the dosage sequence of the components, the inability to store and transport the mixture in a dry state. In addition, the use in a known composition of unwashed and non-ground sand increases the average density of aerated concrete, and also the exclusion from the composition of lime reduces the rate of expansion of the mixture.

The closest composition of the raw material mixture to obtain aerated concrete is a composition containing the following components, wt.%:

Portland cement 30.6-34.6 Ash TPP 22.3-25.2 Lime 2.68-3.1 Wood shavings 0.71-9.17 Aluminum powder 0.04-0.045 Water Rest

(ed. certificate. No. 1759819, publ. 09/07/1992, bull. No. 33).

The disadvantage of the closest raw material mixture is the difficulty of its preparation due to the need to select the optimal fraction of wood chips and the need to maintain it in an aqueous solution of calcium chloride before introduction into the mixture. In addition, the use of wood chips in the closest composition increases the water-hard ratio and the average density of aerated concrete.

A known method of producing aerated concrete, including the preparation of a raw mix by mixing the dry components, water and pre-prepared aluminum suspension in the mixer, after which the mixture is poured into molds where it vibrates and swells. After that, the array is kept in shape and heat treated (see Kunnos G.Ya., Lindenberg B.Ya. Vibration method for preparing aerated concrete mix. - Riga, Publishing House of the Academy of Sciences of the Latvian SSR, 1962, - 15 s).

The disadvantage of this method is the use of an additional device - vibration pad.

The closest technical solution to the proposed one is a method for producing aerated concrete, which includes preparing a raw mix by mixing dry components, water and a pre-prepared aluminum suspension in a mixer, after which the mixture is poured into molds where it swells. After expansion, the array is kept in shape and heat treated (see the Instructions for the manufacture of cellular concrete SN 277-80).

The disadvantage of this method is the separate preparation of concrete mixture and aluminum suspension, while additional special mixers are used to obtain a suspension of aluminum powder. In addition, there is a need to remove the excess mixture - "hump" formed after the expansion of the aerated concrete mixture.

The objective of the invention is to remedy these disadvantages, while ensuring the required physical and mechanical characteristics of aerated concrete, which ultimately affects the simplification of the process of producing aerated concrete, expanding the technological capabilities of its use, as well as improving the quality of aerated concrete.

This object is achieved in that the dry mixture for non-autoclaved aerated concrete, including Portland cement, quicklime, ground sand and aluminum powder, additionally contains textile cord in the following ratio of components, wt.%:

Portland cement 40.1-45.8 Lime 8.1-9.2 Ground sand 41.3-48.0 Textile cord 3,5-8,5 Aluminum powder 0.210-0.214

The problem is also achieved by the fact that in the method for producing non-autoclaved aerated concrete, including the preparation of the raw material mixture, molding of the array and its exposure, according to the invention, the preparation of the raw material mixture is carried out by co-grinding ground sand and aluminum powder in a ball mill, after which cement and lime are introduced into the mill and textile cord and further grinding, then the obtained dry aerated concrete mixture is loaded into the mixer and mixed with water and left motionless until it is full th expansion, after which the porous mixture is poured into the desired cavity.

The task is also achieved by the use of ground sand with a specific surface area of at least 200 m ² / kg.

The task is also achieved by the fact that the joint grinding of ground sand and aluminum powder is carried out in a ball mill for 6-12 minutes.

The task is also achieved by the fact that after the introduction of cement, lime and textile cord additionally carry out grinding for 5-7 minutes.

The task is also achieved by the fact that the dry aerated concrete mix with water for no more than 5 minutes.

The task is also achieved by the fact that after mixing with water, the mixture is left motionless for 8-10 minutes until it is fully expanded.

The task is also achieved by the fact that the dry aerated concrete mixture is mixed with water having a temperature of 50-55 ° C.

The introduction of textile cord in aerated concrete in an amount of 3.5-8.5% increases its compressive strength by 20-44% at a constant density, and also prevents the swelling of the mixture from settling, holding gas bubbles in the concrete volume. When the cord content is less than 3.5%, the increase in strength becomes vanishingly small. At a cord concentration of more than 8.5%, the swelling of the mixture sharply worsens, the structure of concrete is characterized by the presence of a large number of large pores. In addition, the strength of concrete is reduced.

When the content of Portland cement is less than 40.1%, the strength of aerated concrete is lower than the level acceptable by standards, and when the content of Portland cement is more than 45.8%, shrinkage deformations appear in aerated concrete, leading to a decrease in strength and frost resistance.

When the lime content is less than 8.1%, the rate of expansion of the mixture decreases, and when the lime content is more than 9.2%, aerated concrete strength may decrease.

When the content of ground sand is less than 41.3%, shrinkage deformations appear, leading to a decrease in strength and frost resistance. With a ground content of more than 48%, the strength of aerated concrete is below the level acceptable by standards.

When the content of aluminum powder is less than 0.210%, aerated concrete does not reach the specified porosity, which leads to increased density. When the content of aluminum powder is more than 0.214%, an excess amount of gas is formed, which leads to the merging of gas bubbles and tearing them out through the surface to the outside. As a result, sediment aerated concrete mixture.

When dry sand is ground together with aluminum powder in a ball mill, the aluminum particles are mechanically activated and the paraffin film is removed from their surface.

Subsequent introduction of Portland cement, quicklime and textile cord into the ball mill contributes to the additional activation of cement and even distribution of components throughout the mixture, which leads to an increase in the quality of aerated concrete.

Joint grinding of all components of the mixture simplifies the process of preparing aerated concrete.

The use of ground sand with a specific surface area of less than 200 m ² / kg may lead to settling of the expanded mixture.

When grinding ground sand and aluminum powder for less than 6 minutes, there is not enough dewaxing of aluminum particles, as a result of which aerated concrete has an increased density. Grinding the mixture for more than 12 minutes is impractical, since there is no noticeable change in density and strength.

With additional grinding of ground sand, aluminum powder, cement, lime and textile cord for less than 5 minutes, there is not enough uniform distribution of the components in the entire volume of the mixture. An increase in grinding time of more than 7 minutes contributes to an increase in energy consumption.

The dry aerated concrete mixture is mixed with water having a temperature of 50-55 ° C for 5 minutes. A chemical reaction takes place in the mixture between calcium oxide hydrate and aluminum powder with the release of gas bubbles - hydrogen.

When using water with a temperature of less than 50 ° C, the required rate of expansion of the mixture is not achieved, and at a temperature of more than 55 ° C there is rapid gas evolution, which contributes to the appearance of a defective structure of aerated concrete and a decrease in its strength.

Stirring the dry mixture with water for more than 5 minutes leads to the merging and rupture of gas bubbles and tearing them out through the surface to the outside, which leads to an imbalance in the gas phase. As a result, sediment aerated concrete mixture. Therefore, after this time, the mixture is left motionless for 8-10 minutes until it is fully expanded. Then the porous mixture is poured into the desired cavity to the edges and does not require removal of the "hump".

Example.

To obtain aerated concrete, Portland cement of the M500 grade of the Shchurovsky plant, quicklime of the Uglovsky combine, quartz sand from the TKSM-2 quarry, textile cord of the Tver ISKOZH plant, PAP-2 aluminum powder of the Kameno-Ural plant were used.

The calculated amount of all components of the composition was measured: Portland cement was taken 42.5 wt.%, Quicklime 8.5 wt.%, Ground sand with a specific surface of 200 m ² / kg 45 wt.%, Textile cord 6.0 wt.%, Aluminum powder 0.212 wt.%. Next, ground sand and aluminum powder were loaded into a laboratory ball mill and joint grinding was performed for 9 minutes. Then Portland cement, quicklime and textile cord were loaded there and grinding was additionally carried out for 8 minutes.

The resulting dry aerated concrete mixture was shut with water (W / T = 0.5) at a temperature of 52 ° C, stirred for 5 minutes, after which the mixture was left motionless for 10 minutes until it was fully expanded and poured into 10 x 10 cubic forms 10 × 10 cm.

Hardening of the samples occurred within 7 days (normal hardening). At the age of 7 days, the samples were dried to constant weight, weighed, and subjected to a strength test.

The table shows the compositions and physico-mechanical properties of non-autoclaved aerated concrete at W / T = 0.5 at the age of 7 days.

Table No. p / p The components of the composition, wt.% The limit of compressive strength, MPa Density, kg / m ³ Portland cement - 40.1 Lime - 8.19 one Ground Sand - 48 0.45 535 Textile cord - 3.5 Aluminum powder - 0.210 Portland cement - 42.44 Lime - 8.348 2 Ground Sand - 44 0.54 554 Textile cord - 5.0 Aluminum powder - 0.212 Portland cement - 45.786 Lime - 9.2 3 Ground sand - 41.3 0.65 543 Textile cord - 8.5 Aluminum powder - 0.214

Trial and laboratory tests were conducted in the construction pavilion of the department "Production of building materials, products and structures" TSTU.

Claims (8)

1. A dry mixture for the preparation of non-autoclaved aerated concrete, including Portland cement, quicklime, ground sand and aluminum powder, characterized in that it additionally contains textile cord in the following ratio of components, wt.%: Portland cement 40.1 - 45.8 Lime 8.1 - 9.2 Ground sand 41.3 - 48.0 Textile cord 3.5 - 8.5 Aluminum powder 0.210 - 0.214 2. A method of producing non-autoclaved aerated concrete, including the preparation of the raw material mixture, molding of the array and its exposure, characterized in that the preparation of the raw material mixture is carried out by co-grinding ground sand and aluminum powder in a ball mill, after which cement, lime and textile cord are introduced into the mill and grinding is additionally carried out, after which the resulting dry aerated concrete mixture is loaded into the mixer, mixed with water and left motionless until it is fully expanded, and then the porous mixture smiling is poured into the desired cavity. 3. The method according to claim 2, characterized in that ground sand is used with a specific surface area of at least 200 m ² / kg. 4. The method according to claim 2, characterized in that the joint grinding of ground sand and aluminum powder is carried out in a ball mill for 6 to 12 minutes 5. The method according to claim 2, characterized in that after the introduction of cement, lime and textile cord, grinding is additionally carried out for 5-7 minutes. 6. The method according to claim 2, characterized in that the dry aerated concrete mixture is mixed with water for no more than 5 minutes. 7. The method according to claim 2, characterized in that after mixing with water, the mixture is left motionless for 8-10 minutes. 8. The method according to claim 2, characterized in that the dry aerated concrete mixture is mixed with water having a temperature of 50-55 ° C.