SU885191A1 - Raw mixture for producing cellular concrete - Google Patents

Description

The invention relates to compositions of concrete masses and can be used in the manufacture of building materials. A well-known cellular concrete mixture that contains quenched, ground quartz sand, aluminum powder, alkylsulfanol, sodium chloride and. However, the cellular concrete mixture has an insufficiently compacted cell membrane of concrete, a significant cement cement flow requires the use of expensive quartz sand, the grinding of which requires a considerable expenditure of energy. The closest to the proposed technical essence and the achievable effect is the composition of the concrete cellular structure based on carbon-field-sandy sand L23, containing components, weight. %: Cement31.1 Ground sand with a specific surface area of 2800-3000 Unground sand Aluminum Aluminum The lack of concrete is low strength. The purpose of the invention is to increase the strength and reduce the cost of concrete. The goal is achieved by the fact that the raw mix, including cement, ground sand, unmilled sand, gypsum, aluminum powder and water, contains ground sand of sand with a specific surface area of 2800-3000 and 12001300p; m / g, groundless dune sandstone with a specific surface of 250300 cMVr and additionally lime and sulfanol in the following ratio of components, weight. %:

Cement11.95-17.70

Ground sand with specific surface

2800-3000 5.20-7.70 s 1200-1300 cmVr 14.81-24., 45 Non ground sand with specific surface

250-300 cm Vr 12.87-21.75 O Gypsum 0.66-0.92

Aluminum Powder0, 033-0,139 Lime 11.95-17.70 Sulfanol 0.003-0.010 15

Water . The increase in the strength characteristics of cellular concrete is carried out by using local strangers and aggregates based on quartz sand of the Karakum sand, which differs from the quartz sands commonly used in cellular concrete in that the non-logical and chemical composition of sand is different from the last 25 topics. that in quartz sand, where. SiOl content varies between 85-95%, no carbonates (up to 20% in sand dunes), feldspar (up to 28% in sand dunes), mica and clay-bearing particles (up to 9% in sand dunes), etc.

Grinding of sand sand leads to artificial enrichment of the silica component by field alumina, carbonate and clay components, since their grindability is lower than that of quartz. In addition, fine grinding of multimineral (dune) sands leads to a deterioration of the packaging of the aerated concrete composition due to an increase in the content of the fine fraction.

An example. A host of cellular concrete is prepared by joint grinding in a ball mill of cement clinker (or cement), a lump (in a 1: 1 ratio by weight) and a portion of sand sand equal to 15% by weight of a dry mixture of cellular concrete

The workers put the vibrating concrete mixer into the machine, where 4/5 of the shutter water was already poured, and stirred for 1 minute. Then, the coarse-dispersed and unmilled barchan sands are poured into the mixer and mixed for another 2-2.5 minutes.

The finished solution is poured into molds and vibrates until the end of mass swelling. Heat and moisture treatment is carried out in the usual modes.

In tab. 1 shows the composition of black concrete; in tab. 2 - their physico-chemical properties.

The use of a local binder, as well as its joint grinding with cement and part of the sand, makes it possible to reduce the cost of the binder, and the introduction of three types of sand fractions into cellular concrete makes it possible to increase the packing density of cell walls of concrete and concrete cells.

thus not only increasing the strength indicators of cellular concrete, but also reducing its cost by 2.72 rubles. in comparison with the same structures of gypsum boards, the cost of replacing decorative plasters with interanny tiles of cellular concrete is 4.98 rubles. on 1 m wall.

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Claims (2)

1. USSR author's certificate number 682469, cl. From 04 To 13/22, 1978. 2. Kuatbaev K. K., Roizmai P. A. Cellular concrete on low-quartz raw. M., stroiizdat, 1972, p. 83