SU1715791A1 - Composition for impregnation of filtering concrete - Google Patents

Abstract

The invention relates to the building materials industry and can be applied in the manufacture of compositions used to strengthen concrete in structures and structures, mainly hydraulic engineering and underground, in order to eliminate water filtration in them. The aim of the invention is to increase the strength of concrete. The composition for impregnating filter concrete, preferably by injection, contains, by weight, polyisocyanate 100-150; acetic acid butyl ester 20-60; liquid glass 100; oligoester acrylate 20-50 and alky sodium silicate 3-10. The composition provides compressive strength 54–64.5 MPa, flexural strength 15.6–17.8 MPa, water resistance 0.4–0.5 MPa. 3 tab.

Description

The invention relates to the building materials industry and can be applied in the manufacture of compositions used for strengthening concrete in structures and structures, mainly hydraulic engineering and underground, in order to eliminate water filtration in them.

The aim of the invention is to increase the strength of concrete.

An embodiment of the invention.

Polyisocyanate of grade D (TU-113-03-603-86), butyl ester of acetic acid - butyl cetate (TU 22300-76), density 0.876 g / cm3; oligoester acrylate - an unsaturated polyester resin of the brand MGF-9 (TU-6-01-450-86) -a, w-methacrylate bryoethylene glycolphthalate, which is a yellow-brown liquid; sodium alkylsiliconate — 30% aqueous alcoholic solutions of sodium methyl- or ethyl silicate with a density of 1.17–1.21 g / cm3 silicone fluids GKZH-10 and GKZH-11 {MRTU 6-02-271-63); liquid glass (GOST 13078-81) is an aqueous solution of sodium silicate with a density of 1.35-1.4 g / cm, silicate module 3.

The preparation of the composition involves the sequential introduction into the aqueous solution of sodium silicate of an aqueous-alcoholic solution of sodium methyl or ethyl silicate, oligoester acrylate, K or D grade polyisocyanate with a smaller number of isocyanate groups, and acetic acid butyl ester and mixing the components at normal temperature using known methods. Mix the composition for 2-3 minutes.

Examples of the composition of injection compositions are presented in table 1.

Sample injection of beams (4x4x16) was performed with overpressure.

1-10 MPa depending on the required injection depth and density of the concrete until the samples are completely saturated. The amount of equilibrium moisture in the pores of the concrete is not normalized,

After injection, the samples are incubated for 7 days in the open air and subjected to tests.

The properties of concrete samples impregnated with known and described compositions are presented in Table 2,

Table 3 gives control examples.

An increase in the physicomechanical properties of the impregnated concrete in the case of the introduction of oligo- ethacrylate and sodium methyl- or ethyl silicate into the impregnating composition is explained as follows.

Oligoether acrylate is a reactive substance with respect to polyisomansate. The reaction proceeds along the double bonds of the oligoether acrylate and the NCO groups of the polyzocyanates with the formation of a copolymer, which leads to the hardening of the entire system. In addition, the oligoether acrylate is a surfactant, which has a positive effect on the interaction process at the interface of liquid glass and polyisocyanates by OH and NCO groups.

Thus, the increase in the strength properties in the system with oligoacrylate is due to the fact that the latter plays a dual role — the participant in the reaction and the structural generator of the system, exhibits surface active properties.

The role of structurant and participant of the reaction is also played by organosilicon liquids — methyl or ethyl silicate sodium. Unlike Petrov contact, these compounds with respect to the polyisocyanate-silicate system are reactive surfactants (RPAM), soluble in each of the components of the reaction mixture.

The processes of interaction between sodium silicate solution and polymocyanate due to incompatibility pass at the interface, therefore, silicone fluids, lowering the surface energy, stabilize the structure of both the initial mixture and the reaction mixture formed during the process, and thereby improve the physicomechanical characteristics of the impregnating agent. material and, therefore, impregnated concrete as a whole.

Claims (1)

DETAILED DESCRIPTION OF THE INVENTION A composition for impregnating filter concrete is preferably injected, including polyisocyanate, acetic acid butyl ester, water glass and a surfactant, which, in order to increase the strength of concrete, contains an oligoether acrylate as a surfactant and additionally alkylsiliconate sodium in the following ratio of components, ma.ch ,: Polyisocyanate Butyl ester of acetic acid Liquid glass Oligoether acrylate Alkylsiliconate sodium 100-150 20-60,100 20-50 3-10. Table 1 Table 2 T a.b l and c a 3