RU2337079C1 - Chemical admixture for cement concretes and building mortars - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: chemical admixture for cement concretes and building mortars contains, wt %: technical lignosulfonates - 15-30, sodium sulfate - 40-55, sodium carbonate - the rest.

EFFECT: reduction of dehydration and solution abjunction.

6 ex

Description

The invention relates to the field of construction, to additives of multifunctional action for cement concrete and mortar.

Known chemical additive for cement concrete and mortar in the form of technical lignosulfonates (LST) - a by-product of the processing of wood by the sulfate method (OST 13-183-33) / 1 /.

This known additive increases the ductility of cement-concrete mixtures in a dosage of 0.1-0.2%, but at the same time adversely affects the setting time and hardening rate of cement-concrete mixtures. This is related to the search for new additives based on LFB, eliminating or reducing the negative properties transmitted by LFB to cement-concrete mixtures.

It is known to use sodium carbonate in combination with technical lignosulfonates as a plasticizing additive and an additive retarding the setting of concrete mix (application WO 01/36344 A2, publ. 2001) / 2 /.

However, this known additive does not have a stabilizing effect on the concrete mixture, does not affect water separation and solution separation.

The closest analogue of the proposed chemical additive for cement concrete and mortar is the well-known chemical additive for cement concrete and mortar containing technical lignosulfonates and sodium sulfate (Manual for the use of chemical additives in the manufacture of precast concrete structures and products to SNiP 3.09.01-85 M., 1989, p. 6) / 3 /.

The disadvantage of this known chemical additive is that it must be used with a high total consumption, while it is used by separate preparation and dosage of each ingredient, which increases the labor costs in its application. In addition, this known additive has no effect on water separation and solution separation.

The technical result achieved by the present invention is to reduce water separation and decrease solution separation.

This technical result is achieved due to the fact that the chemical additive for concrete and mortar containing technical lignosulfonates and sodium sulfate additionally contains sodium carbonate in the following ratio of components, wt.%:

Technical lignosulfonates 15-30 Sodium sulfate 40-55 Sodium carbonate Rest.

The proposed additive is a powder. The total consumption of the additive is 0.4-0.5 wt.%.

The following are examples illustrating the invention.

Example 1. Prepare a chemical additive containing the ingredients in their following ratio, wt.%:

Technical lignosulfonates fifteen Sodium sulfate 40 Sodium carbonate The rest (45).

The prepared additive increases the mobility of the cement-concrete mixture by 16 cm: from 4 cm without an additive to 20 cm with its use, lengthens the beginning of the setting time up to 4 hours. The additive contributes to a quick set of strength of the cement-concrete mixture. When used after 1 day, the strength of the cement-concrete mixture reaches 70% of the design strength. The additive can reduce cement consumption by 15% compared to the norm. It increases the frost resistance of concrete by 150 cycles (50 cycles without additives and 200 cycles with additives). In addition, the additive leads to a reduction in water separation to a level of 8.9 g / l (without an additive, water separation is 22 g / l). The additive reduces the solution to 2.3% (without the additive, the solution reaches 5.0%). This allows you to reduce the delamination of the concrete mixture, to increase its uniformity.

Example 2. Prepare a chemical additive containing the ingredients in their following ratio, wt.%:

Technical lignosulfonates thirty Sodium sulfate 55 Sodium carbonate The rest (15).

The prepared additive increases the mobility of the cement-concrete mixture by 16 cm: from 4 cm without an additive to 20 cm with its use, lengthens the beginning of the setting time up to 4 hours. The additive contributes to a quick set of strength of the cement-concrete mixture. When used after 1 day, the strength of the cement-concrete mixture reaches 70% of the design strength. The additive can reduce cement consumption by 15% compared to the norm. It increases the frost resistance of concrete by 150 cycles (50 cycles without additives and 200 cycles with additives). In addition, the additive leads to a reduction in water separation to a level of 9.0 g / l (without an additive, water separation is 22 g / l). The additive reduces the solution to 2.5% (without the additive, the solution reaches 5.0%). This allows you to reduce the delamination of the concrete mixture, to increase its uniformity.

Example 3. Prepare a chemical additive containing the ingredients in their following ratio, wt.%:

Technical lignosulfonates fifteen Sodium sulfate 55 Sodium carbonate The rest (30).

The prepared additive increases the frost resistance of concrete by 100%. In addition, the additive leads to a reduction in water separation to a level of 8.9 g / l (without an additive, water separation is 22 g / l). The additive reduces the solution to 2.4% (without the additive, the solution reaches 5.0%). This allows you to reduce the delamination of the concrete mixture, to increase its uniformity.

Example 4. Prepare a chemical additive containing the ingredients in their following ratio, wt.%:

Technical lignosulfonates thirty Sodium sulfate 40 Sodium carbonate The rest (30).

The prepared additive increases the mobility of the cement-concrete mixture by 16 cm: from 4 cm without an additive to 20 cm with its use, lengthens the beginning of the setting time up to 4 hours. The additive contributes to a quick set of strength of the cement-concrete mixture. When used after 1 day, the strength of the cement-concrete mixture reaches 70% of the design strength. The additive can reduce cement consumption by 15% compared to the norm. It increases the frost resistance of concrete by 150 cycles (50 cycles without additives and 200 cycles with additives). In addition, the additive leads to a reduction in water separation to a level of 9.0 g / l (without an additive, water separation is 22 g / l). The additive reduces the solution to 2.3% (without the additive, the solution reaches 5.0%). This allows you to reduce the delamination of the concrete mixture, to increase its uniformity.

Example 5. Prepare a chemical additive containing the ingredients in their following ratio, wt.%:

Technical lignosulfonates 10 Sodium sulfate 35 Sodium carbonate The rest (55).

The prepared chemical additive practically does not affect the mobility of the cement-concrete mixture, the setting time, does not affect the hardening process, the consumption of cement and the frost resistance of concrete. The additive does not reduce water separation and does not affect solution separation.

Example 6. Prepare a chemical additive containing the ingredients in their following ratio, wt.%:

Technical lignosulfonates 35 Sodium sulfate 60 Sodium carbonate The rest (5).

The prepared chemical additive practically does not affect the mobility of the cement-concrete mixture, the setting time, does not affect the hardening process, the consumption of cement and the frost resistance of concrete. The additive does not reduce water separation and does not reduce solution separation.

Thus, the chemical additive according to the invention is a powder that does not complicate the procedure for its introduction into cement-concrete mixtures and mortars. It increases the mobility of the cement-concrete mixture, accelerates the hardening process, lengthens the setting time, reduces the consumption of cement and helps to increase the frost resistance of concrete and at the same time reduces the segregation of the concrete mixture by reducing water separation and lowering the dissolution.

Claims (1)

Chemical additive for concrete and mortar containing technical lignosulfonates and sodium sulfate, characterized in that it additionally contains sodium carbonate in the following ratio, wt.%: technical lignosulfonates 15-30 sodium sulfate 40-55 sodium carbonate rest