RU2149849C1 - Sealant for porous structures - Google Patents

Abstract

FIELD: building industry, more particularly coating of porous materials such as concrete, brick, tile and ceramics. SUBSTANCE: sealant comprises three components functionally bonded together in 70:0:42: balance, ratio. First component comprises wt %: portland cement 40-60; calcined siliceous component of sand having fraction of less than 319 mcm, second component comprises, wt %: calcium nitrate, 14-16; sodium sulfate, 34; sodium carbonate, 14-16: sodium nitrate 22: unslaked lime, 5.5; and calcium metasilicate, the balance. Third component water with general hardness index of not greater than 6 mg.equiv/h, the balance. Sealant is applied onto porous surface or is introduced internally. EFFECT: improved properties of the sealant. 2 ex, 1 tbl

Description

 The invention relates to compositions used in construction for coating porous materials exposed to water, for example concrete, bricks, tiles, ceramics, etc., to improve water resistance, frost resistance, strength.

 The aim of the invention is to improve the operational characteristics of the sealant: compressive strength, bending, water resistance, frost resistance.

This is achieved by the additional introduction of calcium metasilicate (wollastonite) with a needle structure and chemical composition, which (CaS, O ₃ + SiO ₂ ) organically fits into the structure formed by other components, creates a reinforcing effect in the composition, increasing the mechanical strength by 1, 4-1.8 times. This circumstance is especially important for increasing the deformability of concrete without destroying surfaces experiencing vibration, temperature changes, etc.

Grinding, fractionation of the siliceous component - sand, followed by its calcination at a temperature of 600 ^o C, with wiping to sizes <315 microns increases its activity when interacting with chemical additives and cement, which contributes to the formation of nuclei of crystallization of additives in capillaries, improves adhesion, hydration of the mineral binder etc.

 The combination of the second part of the sealant additives with the technological preparation of the filler (sand) can further improve the mobility of the sealant and minimize the third part of the sealant - the amount of water for mixing, which also increases its frost resistance.

 The first two parts of the sealant are prepared using standard equipment on a continuous production line.

 The sealant is used after combining the three parts into a homogeneous mass by mixing manually or mechanically and applying to the surface of products that require protection from liquid or entering it directly into the composition of the products during their manufacture.

 The invention consists in the fact that the sealant consists of three parts in a ratio, wt. %: 77: 0.42, the rest. Moreover, the first part consists, wt. %: Portland cement grade ПЦ 500 to 40-60, calcined quartz sand fraction 315 microns - the rest.

The second part consists, wt.%:
Calcium nitrate - 14-16
Sodium carbonate - 14-16
Sodium Sulfate - 34
Sodium Nitrate - 22
Quicklime - 5.5
Calcium metasilicate - the rest.

 The third part is water with indicators of a total hardness of not more than 6.0 mg • equiv / l. The combined first two parts with the third part as a whole immediately before use form a sealant, which is applied to the surface of the product with a thickness of 1-5 mm or introduced into the mixture used to manufacture the product in an amount of 3 wt.%.

 The evaluation of the usefulness of the sealant was carried out on samples made according to classical technology with the use of sealant and without it.

Example 1. From a concrete mixture of the composition, wt.%:
Portland cement, grade PTs 400 - 17
sand - 32
crushed stone - 51
closed with water in a ratio w / c-1: 2, samples 100x100 in size were prepared and normal hardening was carried out.

To prepare the first part of the sealant, quartz sand was crushed and fractionated to a size of <315 μm, calcined at a temperature of 600 ^o C and mixed in a batch mixer with Portland cement grade PC 500 DO in the ratio according to the invention.

 Separately, the second part of the sealant was prepared - a mixture with chemical additives in the ratio specified in the invention, and mixed with the first part of the sealant.

 Upon achieving homogeneity, the mixture was packaged in a technological container, eliminating the increase in humidity during storage. Immediately before use, a third part — water, was added to the mixture consisting of two parts of the sealant, and additional mixing of all three parts was carried out until a homogeneous state.

 Sealant was applied to 80% of concrete mix samples in the sequence: priming with a brush with a sealant diluted with water 1: 1, then with a spatula two layers of a sealant of the main composition with a thickness of 1-5 mm with an interval of 2-3 hours.

 20% of the samples remained as control, without sealant coating.

 Comparative tests of samples coated with sealant with control (not coated) were carried out for water resistance according to GOST 12730.5-84, frost resistance according to GOST 10060-87, strength according to GOST 10181-90.

 The test results are shown in the table.

 Example 2. Samples were prepared from the concrete mixture according to example N 1, but with the addition of sealant prepared according to the technology of example 1, in the ratio mixture: sealant 1: 0.03. After normal hardening, after 28 days, comparative tests were carried out for moisture resistance in accordance with GOST 12730.5-84, for strength in accordance with GOST 310.4-81, GOST 10181-90.

 The test results are presented in the table.

 Tests show that the proposed sealant significantly increases strength, moisture resistance, frost resistance compared to analogues.

Claims (1)

Sealant for coating porous structures, for example concrete, brick products, or for incorporation into the composition during their manufacture, including three parts that are functionally connected in a single unit and are in a ratio, wt.%: 77: 0,42: the rest, while the first part consists , wt.%:
Portland cement PC 500 DO - 40 - 60
Calcined silica component - quartz sand fraction less than 315 microns - The rest,
the second part consists, wt.%:
Calcium nitrate - 14 - 16
Sodium Sulfate - 34
Sodium carbonate - 14 - 16
Sodium Nitrate - 22
Quicklime - 5.5
Calcium Metasilicate - Else,
the third part is water with an indicator of total hardness of not more than 6 mg • equiv / l - the rest.

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