SU1719377A1 - Complex additive to cellular concrete mix - Google Patents

Abstract

The invention is intended for use in the building materials industry in the manufacture of cellular concrete products. In order to increase the degree of closed porosity of cellular concrete in reducing its thermal conductivity, the complex additive contains, wt%: bone glue 0.02 ... 0.03, sulfonic acid 0.26 ... 0.36, caustic soda 10.16 ... 10.22, ethyl alcohol 0.03 ... 0.04, soda ash the rest. Cellular concrete composition, wt.%: Ground granulated slag 32.4, river sand 48.5, liquid glass 7.0. water 9.4, complex additive 2.7, has a volume of open capillary pores 24.6%, thermal conductivity coefficient 0.332 W / (). 1 tab. w SЈ

Description

The invention relates to the construction materials industry, in particular to complex additives for cellular concrete mixtures, and can be used in the manufacture of construction products.

The aim of the invention is to increase the degree of closed porosity of cellular concrete and reduce its thermal conductivity.

Use the following materials:

- bone adhesive,

sulfosalicylic sulfonic acid,

-sodium hydroxide.

-ethanol,

-calcined soda,

- ground granulated slag with a specific surface area of 3200 cm / g;

-quartz river sand (coarseness 1.2),

- liquid glass with silicate module 2.8.

The joint action in the composition of the described complex addition of sulfonic acid of bone glue gives the effect of air entrapment and foam stabilization.

As a result of the interaction of ethyl alcohol with an alkali metal, which is contained in a solution of caustic alkali, hydrogen is released, which contributes to the formation of pores in the concrete mix, stabilization and fixation of the cellular structure, compaction of interpore partitions.

The interaction occurs by reaction

2C2HsOH + 2Na - 2C2HsONa + H2t

u with vj vj

The increased viscosity of the concrete mixture contributes to the additional fixation of the cellular pores formed by technical foam, as well as by the released hydrogen sealing the partitions between the pores without breaking them, i.e., an increase in the number of closed capillary pores.

Compaction of the interpore septa due to the hydrogen produced maintains the degree of closed porosity of cellular concrete, increases the operational durability of materials, significantly reduces the convective component of heat transfer and reduces the thermal conductivity of the material.

The additive is prepared as follows.

Soda ash and caustic soda are separately dissolved in water to a density of 1200 kg / m3, mixed, and then bone glue, sulphonic acid and ethyl alcohol are added ..

The resulting complex additive is introduced into a solution of the alkaline component (liquid glass with a density of 1300 kg / m3) in an amount of 2-3.5% of the weight of the components of the concrete mix and mixed for 2 minutes in a high-speed mixer with a frequency of

rotation of blades 400H500 rpm. Then ground slag, river sand are added and mixed for 3 min. Samples are made from the resulting cellular concrete mixture, the volume of open capillary pores is determined according to GOST 12730.4-78, the coefficient of thermal conductivity according to GOST 7076-87.

The compositions of complex additives, concrete mixtures with their use and the test results are shown in the table.

Claims (1)

Formula for obtaining complex additive for concrete mixture, including soda ash and bone glue, which, in order to increase the degree of closed porosity of cellular concrete and reduce its thermal conductivity, it additionally contains sulphonic acid, caustic soda and ethyl alcohol at the following ratio of components, May.%: Bone glue0.02. „0.03 Sulfonic acid 0,26 .. .0,36 Caustic soda 10.16 ... 10.22 Ethyl alcohol 0.03 ... 0.04 Soda Ash Rest Test results