SU1738775A1 - Binder - Google Patents

Abstract

Usage: in the building materials industry. SUMMARY OF THE INVENTION: Mayor contains, in May,%: nepheline sludge from p.p. 10-20% - 45-71: high-calcium ash-slag waste of hydro-removal with ppt 5-12%. 16-48; liquid glass 6,6-12; lighosulfonat, modified with caustic soda in the ratio of 1: 1, 0.4-1. The wafer is prepared by dry grinding of nepheline sludge and ash-slag mixture, followed by solidification with liquid glass, into which the modified lignosulfonate is introduced. The solid has a compressive strength of 88 MPa, an average density of 1650 kg / m3, a thermal conductivity coefficient of 0.57 W / mK. 2 tab.

Description

The invention relates to chemistry, in particular to methods for the production of building concrete, and can be used in the building materials industry.

It is known in the slant, including, wt.%: Nepheline sludge 80 (ppt 20%), liquid glass 20 (with module 2 and a density of 1200 kg / m3).

It is also known in the slant, including, wt.%: High modulus liquid glass (MS 2.5-3.2) in terms of dry matter 4-8; potassium bifluoride 1-2; nepheline sludge else.

Such stitches are characterized by a rather dense stone structure and a high thermal conductivity coefficient.

The closest in technical essence and the achieved result is a stinging, comprising, wt.%: Nepheline sludge (ppt 5.54%) 47-73; liquid glass (MS 1-3) 7-13 (in terms of RaO); blast furnace slag with a glassy aluminosilicate-peel content of at least 65% -5-15.

The disadvantages of this drive are high material consumption due to the values of bulk density and thermal conductivity, which is associated with low hydration of nepheline sludge and aluminosilicate component.

The aim of the invention is to reduce the coefficient of thermal conductivity.

To this end, a nepheline sludge containing glass, and a slag-containing component contains nepheline sludge having a 10-20% loss on ignition (ppt), as a slag-containing component, high-calcium ash-and-slag waste of hydraulic removal, containing 5-12% loss on calcining, and additionally

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Lignosulfonate modified with caustic soda in the ratio 1: 1 is introduced in the following ratio of components, wt%:

Specified nepheline slime 45-71 Liquid glass6,6-12

Specified ash waste slag removal 16-48

Said lignosulfonate 0.4-1 Achieving the goal is the result of the manifestation of a number of features during the solidification process of the proposed composition.

With a small hydration of the original mineral components to the slurry, in particular, nepheline sludge with p. 5.5%, there are no such number of amorphized hydrate phases, which, interacting with liquid glass, could have a sufficient amount of bonds to form alkaline hydroaluminosilicates. The hardening system with regard to neoplasms is mostly represented by coalescing low-base hydrosilicates, which means it is characterized by high density and high values of thermal conductivity.

The proposed feed includes nepheline slag with p. 10-20%. The lower limit provides the minimum amount of hydrosilicates in the system due to the hydration of dicalcium silicate, and the upper limit is maximum possible for the amount of hydration of dicalcium silicate under natural conditions in the heap. The hydrosilicate phases present in the process of hydrolysis of dicalcium silicate (in the process of flooding the nepheline sludge) coagulate the water glass with the release of sodium hydroxide. The intensity of this process is regulated by introducing an additive of the dinosulphonate type, forming hydrophobic films on the surface of particulates, preventing active interactions in the system. The modification of the lignosulphonate type additive with 1: 1 caustic soda leads to the formation of sodium alkaline lignosulfonates, which are more chemically active in the process of interaction with the surfaces of the hydrate phases.

Loosened due to hydrosilation during hydraulic removal and hydro accumulation of high calcium ash – slag mixture with PPP 5-12% actively interacts with the sodium hydroxide formed to form the gel phase, represented by the C H-gel and amorphous alkaline hydroaluminosilicates. The required amount of hydroaluminosilicates is contained in the most highly hydrated high-calcium ash-and-slag mixture with p. 12%, and the minimum at the lower limit of the injected ash-slag mixture with ppt. five%. As a result of hardening, the system is represented by lower density formations that provide for the attenuation of heat transfer, i.e. contributing to the production of low-thermal conductivity. The composition of the neoplasms determines the high activity in the gutter and the strength of the stone.

In the proposed in the pedestrian use nepheline sludge with ppt.p. 10-20 (hydrovalent 5) the following chemical composition, wt.%: Si02 23.5-29.7; CaO 46.8-59.6; Рв20з 1.3-2.4; 2.3-5.8; MDO 0.6-1.8; ZOZ 0.1-0.6; Na20 else; high calcium ash-and-slag mixture of hydro removal from ppt

0 5-12 from combustion of brown coal of the following chemical composition, wt.%: SI02 21.7-26.9; CaO 26.8-38.8; 6.8-9.4; Рв20з 8.1-14.8; MDO 1.2-3.8; AOR 0.6-1.3; Na20 else, sodium liquid glass (MS 2.8) with a density of 1350 kg / m3 according to GOST 13078-81; ASTM type lignosulfonate and caustic soda according to GOST 11078-78.

In order to demonstrate the advantages offered to the residents were formed

0 samples in accordance with GOST 310.4-81 Cooking in the Immigrant. Dried to a residual moisture content of less than 2- nepheline sludge and high calcium ash-slag mixture of hydraulic removal

5 are subjected to joint dry grinding in accepted ratios to the fineness of grinding, corresponding to a specific surface of 350 m / kg on the PSC-2 instrument. The resulting powder is sealed with a solution of liquid

0 glass (MS 2.8) with a density of 1350 kg / m3 with a pre-added additive of lignosulfonate modified with caustic soda in a 1: 1 ratio. Prepared specimens in survivors undergo heat5 with a humidity treatment according to the 363h regime at 95i5 ° C. The compositions in the living taking into account the characteristics of the raw materials are given in table. 1.

The properties of the agonists are given in table. 2

0 As it follows from the above data, the properties of the proposed in-binding compositions based on hydrated nepheline sludge, high calcium ash and slag, water glass and the addition of lignosulfonate,

5 modified with caustic soda, in a 1: 1 ratio, have a coefficient of thermal conductivity of 16-37% and an average density of 15-25% lower than the compositions of the prototype with identical activity in the living.

Claims (1)

Invention Formula A slurry, including nepheline sludge, water glass, slag-containing component, characterized in that, in order to reduce the thermal conductivity, nepheline sludge is used, containing 10-20% p.p. A second ash and slag waste of water removal containing 5–12% pct, and additionally introduced lignosulfonate modified with caustic soda in a 1: 1 ratio, with the following ratio of components, wt.%: said nepheline slime 45-71; liquid glass 6,6-12; the specified ash and slag waste 16-48; the specified lignosulfonate 0.4 to 1.0. Table 1