RU2052413C1 - Additive composition for concrete mixture or surface concrete working - Google Patents

Abstract

FIELD: building industry. SUBSTANCE: composition has, wt.-%: sodium carbonate 30.0-51.3; sodium sulfate 20.5-40.0; sodium chloride 0.4-0.5; sodium nitrate 14.5-27.7 and calcium nitrate 0.1-15.0. Composition can be added to concrete mixture directly or mixed with cement-sand suspension containing unslaked lime and applied on the concrete surface. EFFECT: enhanced quality of composition. 3 tbl

Description

 The invention relates to compositions of functional complex additives introduced into concrete mixtures or applied to the surface of concrete, and can find application in the construction materials industry and in construction.

The known composition of the additive for concrete mix, which allows to increase the moisture resistance and strength of the resulting concrete, including, by weight. sodium carbonate 35-42; sodium sulfate 8-10; sodium chloride rest [1]
This composition is the closest to this invention in terms of the composition of the additive for concrete mix, in technical essence and the result obtained.

 The disadvantages of the known solutions [1] are the relatively low strength and low stability of concrete in aggressive environments, as well as its fragility.

 The known composition of the additive for surface treatment of concrete, including inorganic compounds [2] When applied to the surface of concrete, the composition penetrates into its pores and can improve its performance.

 This composition is the closest analogue of the present invention in terms of the composition of the additive for surface treatment of concrete.

 However, the penetration depth of the known composition [2] into concrete is small and the effect of increasing its strength, durability and resistance to aggressive environments is small.

 A universal additive is not known that is capable of equally effectively improving the properties of concrete when introduced directly into the concrete mix and during surface treatment of concrete products.

 The aim of the invention is to develop a universal composition of additives for concrete mix and surface treatment of concrete, which allows to increase strength, durability and resistance to aggressive environments.

 The essence of the invention lies in the fact that the composition of the additive includes, by weight. Sodium carbonate 30.0-51.3 Sodium sulfate 20.5-40.0 Sodium chloride 0.4-0.5 Sodium nitrate 14.5-27.7 Calcium nitrate 0.1-15.0.

 The composition is introduced into the concrete mixture in an amount of 0.03-0.7 wt. or in a solution for surface treatment of concrete in an amount of 3-10 wt.

PRI me R 1. Research was carried out on a concrete mixture containing 1 m ³ . Portland cement (M 400) 300 kg, sand (bulk density 1400 kg / cubic meter) 735 kg and crushed stone (fractions 5-20 mm, bulk density 1400 kg / cubic meter) 1050 kg, at W / C 0.56-0, 60. Control samples of 150x150x150 mm in size were made from the mixture. Similar samples were made from the above concrete mixture containing 0.4 wt. additives according to this invention, the composition of which is shown in table. one.

 Testing the samples for water resistance was carried out in accordance with GOST 12730.5. All samples made from concrete mixture containing 0.4 wt. compositions 1,2, withstood water pressure of 1 MPa (concrete grade for water resistance W 10).

 Control samples withstood water pressure of 0.2 MPa (concrete grade for water resistance W 2).

 Compression and bending tests were carried out according to the method of GOST 10180-90. The test results are presented in table. 2.

 In addition to increasing the strength of concrete, the proposed composition increases the durability of concrete when it is used in solutions of inorganic acids, alkalis, as well as in sea water and oil products by 50-90% compared with control samples and prototype.

 PRI me R 2. Control samples were prepared from a concrete mixture, the composition of which is shown in example 1. After 7 days of normal hardening, a coating prepared on the basis of cement-sand mortar in the ratio C: P = was applied to the working surface of part of the control samples. 1: 1 with the addition of quicklime in the amount of 0.9 wt. compositions 1.2 (table. 1) at W / C 0.57, 3-4 mm thick.

Before testing, the samples were kept as follows:
24 hours under normal temperature and humidity conditions
24 hours in a hydraulic environment.

 Testing the samples for water resistance was carried out in accordance with GOST 12730.5.

 All samples coated with protective compounds withstood water pressure of 1 MPa (concrete grade for water resistance W 10). Control samples withstood water pressure of 0.2 MPa (concrete grade for water resistance W 2).

 Tests of the samples for compression and bending were carried out according to the method of GOST 10180-90. The results are presented in table. 3.

 The tests showed that the depth of penetration of surface coatings into concrete (7-28 days) is up to 15 cm.

 The proposed composition of the additive can significantly increase the strength of concrete in bending and compression, both when introducing the additive into the concrete mixture, and during surface treatment of concrete. In addition, the composition allows to increase the water resistance and resistance of concrete to aggressive environments. The proposed composition was given the conventional name "Kalmatron".

Claims (1)

The composition of the additive for concrete mixture or surface treatment of concrete, including, wt.%:
Sodium carbonate - 30.0 - 51.3
Sodium sulfate - 20.5 - 40.0
Sodium Chloride - 0.4 - 0.5
Sodium nitrate - 14.5 - 27.7
Calcium nitrate - 0.4 - 15.0

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