SU1076414A1 - Polymer-mineral composition - Google Patents

Abstract

POLYMERT1ERAL COMPOSITION for gluing the facing elements with a supporting concrete layer, including an acrylic emulsion. polymer additive, sting and water, characterized in that, in order to increase the frost resistance and weatherability of the product, it contains styrene-butadiene latex as a polymer additive, and lime-sand fine-milled ground oil as a resin additive, wt.%: Acrylic emulsion (in terms of dry substance) 10-20 Styrene-butadiene latex 3-6 Lime-sand fine-grained 40-60 solid (L Water Rest

Description

9)

The invention relates to the manufacture of building materials and can be used for the manufacture of hollow concrete products, such as cellular concrete products, lined with large-sized protective and decorative elements.

A known latex-cement composition containing divinyl-styrene latex, cement in relation to polymers to cement, p / c 0.05-0.25, 10-% acid ore caseinate is used as a latex stabilizer, each 40 l.

A disadvantage of the latex-cement composition is delamination during operation due to structural differences in the adhesive layer and concrete.

The closest in technical essence to the present invention is a composition for decorative finishing of building products, including, ae,% S

Acrylic emulsion 12-38

Cement 50-68

Stabilizer and re.

surface active

substances1,7-2,8

 Thermosetting

resin for example

epoxy 0.8-2.2

Hardener 0.1-0.2

Organic

solvent 0,4-0,8

Water the rest

In addition, the comp-ozitsi may contain mineral filler in the amount of 40-100% of the total mass 2.

The disadvantage of this composition is increased stiffness after hardening, as a result of which the adhesive layer does not withstand prolonged climatic influences and operational loads, which lead to the formation of cracks in the contact adhesive zone and the gradual destruction of the building product.

The purpose of the invention is to increase the frost resistance and weather resistance of a laminated concrete product.

This goal is achieved by the fact that a polymer-mineral composition for gluing facing elements with a carrier-concrete layer, including an acrylic emulsion, a polymer additive, and water, contains styrene-butadiene-latex as a polymer, .a

in the quality of a ghost, sandstone sandstone, thin and gritty, with the following ratio of components,

MES "ID

Acrylic emulsion (in terms of

dry matter) 10-20 Styrene-butadiene latex3-6 Lime-sand fine-grained

40-60

WaterEverything

The polymeric mineral composition 5 is prepared by thoroughly mixing water, an acrylic emulsion, a styrene-butadiene latex and a binder.

0 Polymer-mineral composition is applied in a layer of 0.8-1.2 mm on large-sized facing elements. After 15-20 minutes, the mold for the manufacture of the building product is filled

5 cheytobetonnoy mixture. After the heat-moisture treatment, the polymer-mineral composition forms a flexible contact bonding zone, which ensures the joint operation of cellular concrete and large-sized cladding elements under atmospheric conditions and operating loads.

The resulting laminated concrete product consists of layers connected by layers.

5 large-sized cladding elements with anchors passing into cellular concrete through the contact bonding area, and cellular concrete.

Specific compositions of the compositions are given in Table. one.

Physico-mechanical parameters are given in table. 2

The proposed polymer-mineral 5 composition for gluing cladding elements with a bearing cellular concrete layer increases frost resistance and weatherability of the product, increases the service life of structures 0 and reduces funds for the repair of building envelopes.

The data table. 2 confirm that the facing elements made by the proposed method, much 5 more durable than the known. In this case, the overhaul period of the exterior walls of buildings extends to 25 years.

10764144

Table

Freezing-thawing, 600 cycles in excess Over 2400 Atmosphere resistance, h (or 50 Adhesion to base Higher durability Normal capillary water absorption,% Relative limiting deformations of the contact adhesive zone at separation 8.10-2, facing element More than 600 Over 600 Over 250. Over 2400 Over 2400 Over 1000 conditional years of operation) of the gap of cellular concrete to the gap 8,2-10 9-10-2

Claims (1)

POLYMERMINERAL COMPOSITION for bonding facing elements with a supporting cellular concrete layer, including an acrylic emulsion, a polymer additive, a binder and water, characterized in that, in order to increase the frost and weather resistance of the product, it contains styrene-butadiene latex as a polymer additive, and binder - lime-sand fine-milled binder in the following ratio of components, wt.%: Acrylic emulsion (in terms of dry matter) Styrene-butadiene latex Lime-sand, finely ground astringent Water Rest