SU1475900A1 - Polymer-silicate concrete mix - Google Patents

Abstract

The invention relates to the building materials industry and can be used in the manufacture of protective linings. The aim of the invention is to increase the strength. Polymersilicate concrete mixture contains, wt%: liquid glass 12-14

sodium fluoride 2-2.2

furyldifurfurylidene-acetone varnish 0.2-0.4

acid resistant filler 14,6-16,6

quartz sand 22.0-25.0 and acid-resistant crushed stone - the rest. The mixture provides a density of 2.28-2.4 g / cm ³ , compressive strength 36.9-38.9 MPa, bending 8.2-8.7 MPa, acid resistance coefficient 0.97-1.04, water resistance coefficient 0.96. 2 tab.

Description

one

The present invention relates to the building materials industry and can be used in the manufacture of protective linings.

The purpose of the invention is to increase the strength.

Example. The following materials are used: technical liquid glass with a silicate module 2.7-2.9, density 1.4-1.45 g / cm3; silicon fluoride sodium; furyldifurfurylidene acetone lacquer (furit), which is a solution of Auryl difufurylidene acetone resin DF-1C, modified with polyvinyl butyral, in solvent K 646, containing, in% by butylacetate 10; ethyl cellosolve 8, acetone 7, butyl alcohol 15, ethyl alcohol 10, toluene 50, in a ratio of 1: 2; acid resistant filler - andesitic or diabase powder;

acid-resistant crushed stone fraction 3ш 3-15 mm granite or quartz.

Samples are prepared as follows.

In the concrete mixer for 1.5 - 2 minutes, mix crushed stone, sand, filler and sodium silicate. To the mixture is added a pre-prepared mixture of technical liquid glass with furyldifurfuryl-dendenacetone such (furit). All components are mixed for 2.5-3 minutes.

The composition of the prototype is prepared according to the same technology with the introduction of furfurol-acetone monomer as an organic additive.

The compositions of the known and proposed mixtures are given in table. one.

For tests, samples of 7x7x7 cm and 4x4x16 cm are prepared.

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with

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with

based on five samples for each type of test. Samples are cured at 20 + 2 ° С and relative air humidity of 60-65% for 28 days. Compressive strength is determined on samples of 7 x 7 x 7 cm. Flexural strength is determined on samples of 4 x 4 x

X 1 6 CM.

 Acid resistance is determined by changing the strength of samples of size 7 x 7 x 7 cm under compression before testing and after exposure for 30 days in 5 and 20% solutions of sulfuric and hydrochloric acids and in 20% solutions of nitric and nitric acids. phosphoric acid.

Claims (2)

The results of comparative tests are given in table. 2. The formula of the invention Polymersilicate concrete mixture including liquid glass, silica-oil Sodium sodium, furan polymer additive, acid-resistant filler, quartz sand and acid-resistant crushed stone, characterized in that, in order to increase the strength, it contains, as a furan polymer additive, furyldifurfurylidene acetone varnish in the following ratio of components, wt.%: 0 Liquid Silicon Fluoride Glass sodium FuryldifurLurilidenetsetonovy varnish Acid-resistant filler Quartz sand Acid-resistant crushed stone 12-14 2-2,2 0.2-0.4 14.6-16.6 22.0-25.0 Rest Liquid glass Silicon fluoride sodium Andesitic powder Diabase powder Quartz sand 25.0 Crushed stone granite fractions 5-15 mm 44.0 Crushed stone quartz fraction 5-15 mm Furyldifurfurigg- idacetone varnish Furfurol acetone monomer 0.8 21, 0 14.6 22.0 24.0 25.0 25.0 26.0 48.0 .47.0 45.0 44.0 - 42.0 - - - - 44.0 0.1 0.2 0.3 0.4 0.4 0.5 Compositions 1 and 6 are given to confirm the optimality of the claimed ratio of components. Table 1 14.6 22.0 24.0 25.0 25.0 26.0 Table