RU2389702C1 - Complex additive for concrete mixture and mortar - Google Patents

Abstract

FIELD: chemistry. ^ SUBSTANCE: invention relates to construction materials, specifically to compositions of complex additives used in making concrete mixtures and mortar. The complex additive for concrete mixtures and mortar contains the following, in wt %: hardening accelerator - 20.0-99.5, acrylate R60 plasticiser - 0.5-80, where the hardening accelerator contains the following, in wt %: mixture of ballast salts based on sodium rhodanide and thiosulphate - 34-99.5, formate - 0.5-33.0 and if necessary sodium acetate - the rest. The formate used in the additive is sodium formate, calcium formate, potassium formate or their mixture and additionally polycarboxylate, Amkiroz, polynaphthalene sulphonate, technical lignosulphonate or their mixture. ^ EFFECT: increased strength, frost resistance, plasticity of concrete and mortar containing said additive. ^ 3 cl, 2 tbl, 1 ex

Description

The invention relates to the field of building materials, in particular to the compositions of complex additives that are used in the production of concrete mixtures and mortars.

To ensure the possibility of construction work in the winter, complex additives are introduced into the composition of concrete and mortar mixtures, which contribute to the hardening of cement at low temperatures.

A complex additive is known in concrete mixtures (Russian patent No. 1733422, IPC ⁶ С04В 18/02, priority. 04/23/1990) containing a mixture of ballast salts of coke oven gas desulfurization based on sodium thiosulfate and thiocyanate and an organic component. The known additive additionally contains, as an organic component, dicarboxylic acid from the group: oxalic, dicarboxylic acid melt of the C ₃ -C ₆ fraction, pimelic acid at a ratio of components, wt.%: A mixture of ballast salts of coke oven gas purification based on thiosulfate and sodium thiocyanate is the basis, technical lignosulfonate - 9-13, the specified dicarboxylic acid - 3-5.

A disadvantage of the known complex additive is the presence in its composition of 12-18% of an organic component - an insufficiently strong plasticizer, which slows down the structure formation processes in concrete and reduces the antifrosty effect of the additive, while it does not significantly increase the plastic characteristics of the concrete mixture with the necessary reduction in the amount of mixing water. In addition, the composition of the hardening accelerator is not effective enough to reduce the freezing point of the liquid phase in mortars to -14 ... -16 ° C.

Also known is the additive that is included in the binder for concrete from Portland cement clinker and gypsum in an amount of 1.0-3.0 wt.% According to the patent of Ukraine No. 177979 C2, IPC С04В 7/30, С04В 7/02, С04В 22/08 publ. 05/20/1997.

The additive contains technical pentaerythritol filtrate based on sodium formate and, in accordance with the invention, as an additive, a solid product of the production of synthetic fatty acids based on sodium sulfate with this ratio of components, wt.%: A solid product of sulfate water produced by synthetic fatty acids based on sodium sulfate - 2.0-4.0; technical pentaerythritol filtrate based on sodium formate - 1.0-3.0. But the freezing point of the liquid phase when using this additive is only -10 ... -13 ° C.

The closest in technical essence and the technical result achieved is a complex additive in concrete mixes and mortars according to the patent of the Russian Federation No. 2310618, IPC С04В 22/08, С04В 24/24, prior. 04/10/2006, containing a mixture of salts based on sodium thiosulfate and sodium thiocyanate and an organic component, respectively, according to the invention, contains amkyros and sodium polynaphthalene sulfonate as an organic component - C-3 superplasticizer in the following ratio of components, wt.%: A mixture of salts based on thiosulfate and sodium rhodanide 50-98; amkyrosis - 1-40; superplasticizer C-3 - the remainder.

The additive provides an increase in relation to the prototype strength and frost resistance of concrete, but does not allow to achieve the necessary high frost resistance and the freezing temperature of the liquid phase in mortars reduced to -14 ... -16 ° C.

The basis of the invention is the task of improving the composition of the additive, increasing its anti-frost properties, strength and frost resistance of concrete, as well as the plasticity of building mortars by adding more effective hardening accelerators to the hardening accelerator — a mixture of ballast salts based on sodium thiosulfate and thiocyanate, as well as using plasticizers - super- and hyperplasticizers.

The problem is solved in that a complex additive in concrete mixtures and mortars, containing hardening accelerators as a mixture of ballast salts based on sodium thiosulfate and thiocyanate and a plasticizer, differs in that it contains R60 acrylate as a plasticizer, and the hardening accelerator additionally contains formic salt acid and, if necessary, sodium acetate in the following ratio of components, wt.%:

a mixture of ballast salts based thiosulfate and sodium thiocyanate 34-99.5 formic acid salts 0.5-33.0 sodium acetate rest

in the following ratio of components, wt.%:

hardening accelerator 20.0-99.5 plasticizer - acrylate R60 0.5-80

The complex additive also differs in that it contains sodium formate, or calcium formate, or potassium formate, or a mixture thereof as a formic acid salt, and also additionally contains polycarboxylate, or amkyros, or polynaphthalene sulfonate, or technical lignosulfonate, or a mixture thereof .

Formic acid salts in the presence of a mixture of salts based on sodium thiosulfate and sodium thiocyanate actively influence hydration processes and accelerate the curing of strength both in the early and in the late stages of hardening.

Sodium acetates can further increase the strength characteristics of concrete at all stages of the formation of cement stone. The use of the complex of the above salts allows to lower the freezing point of the liquid phase of the concrete mixture. However, this mixture of hardening accelerators contributes to a very rapid thickening and hardening of the concrete mixture.

The hyperplasticizer polycarboxylate actively disperses cement particles in the concrete mixture, significantly reduces the amount of mixing water, modifies the growth of artificial crystals of cement stone and, in combination with the proposed hardening accelerators, allows to minimize the freezing point of the liquid phase of mortars, increase the frost resistance and strength of concrete at all stages of the formation of cement stone .

Unlike polycarboxylate, R60 acrylate contributes to less gas absorption during the formation of cement stone in concrete and, consequently, to greater compaction of concrete, which can further increase the compressive strength and waterproofness of the specified material.

Amkiroz, due to the presence of active carboxyl and hydroxyl groups in the composition, acts in the same direction as polycarboxylate, but as a less powerful plasticizer of concrete mix and dispersant of cement particles in concrete solutions.

The superplasticizer polynaphthalene sulfonate in combination with the proposed hardening accelerators disperses cement particles and modifies artificial stone crystals, increases the rheological characteristics of the concrete mixture, and the strength and frost resistance of concrete.

Technical lignosulfonate with the addition of the proposed hardening accelerators plasticizes the concrete mixture, but does not significantly reduce the amount of mixing water while maintaining the mobility of the solutions, contributes to a significant slowdown in the processes of early structure formation. However, its use is justified at temperatures above 10 ° C as an independent plasticizer and in a mixture with the previously mentioned plasticizers.

The most effective way to use plasticizers is to mix them in different proportions, depending on the brand and characteristics of the chemical composition of cement, type of fillers, features of technological methods of production and operation.

Thus, the addition of plasticizers, super- and hyperplasticizers in the amounts proposed in the invention allows not only plasticizing the concrete mixture, but also significantly reducing the amount of mixing water while maintaining the mobility of the mixture, and due to the presence of strong hardening accelerators, do not slow down the hardening process in the early stages even at low temperatures hardening.

The additive works well in both heavy, light and cellular concrete mixtures.

Increasing or decreasing the number of hardening accelerators or plasticizers beyond the boundaries of the claimed concentrations helps to reduce either the mobility of the concrete mixture, or to reduce the frost resistance of concrete and increase the freezing temperature of the liquid phase in mortars. In all such cases, the final strength of concrete is reduced.

The inventive complex additive is prepared in this way. The additive is prepared by dosing and mixing a mixture of salts based on:

thiosulfate and sodium thiocyanate, salts of formic acid, sodium acetate and plasticizers within the claimed quantities. The formic acid salt is selected from the group of acids: sodium formate (CHOONa), calcium formate (Ca (CHOO) ₂ ), potassium formate (CHOOK). Or use a mixture of these salts. Sodium acetate (sodium acetate C ₂ H ₃ OONa) is added to the mixture if necessary. As a polycarboxylate, a complex mixture of an unsaturated polyester obtained by erythrification of a mixture of unsaturated dibasic acids with glycols dissolved in styrene was used. Amkyrosis is produced on the basis of TUUV 2-7-19069017.001-98 in the form of a 30-50% aqueous solution and is a surfactant of the carboxylate type, which has active carboxyl and hydroxyl groups. Amkiroz is a multifunctional drug with the help of which it is possible to change both technological and physicochemical properties of concrete in a wide range. As polynaphthalene sulfonate, C-3 superplasticizer was used. Acrylates of type R60 are a by-product of the production of acrylic acid and esters based on an aqueous solution of sodium salts of polyacrylic acid (TU 2432-001-70432310-2007). The components were mixed and dosed in an appropriate container.

Example

To study the properties of the inventive additives, a concrete mixture was prepared containing: 1 part of cement, grade ШПЦ-III / А-400 (Kryvyi Rih cement plant); 1.9 parts of sand with a particle size modulus of 1.48; 2 parts of crushed stone fractions 5-10; 3 parts of crushed stone fractions 10-20; 0.43 parts of water.

The inventive additive can be added to the concrete mixture together with mixing water in an amount of 0.5-3.0% by weight of cement. The mobility of the concrete mixture was determined according to GOST 10181-2000.

For strength and frost resistance tests, concrete samples were prepared from concrete mixture, which hardened under normal thermal and humid conditions. The strength of the samples was determined according to GOST 18105-86, and frost resistance - GOST 10060.0-95. Concrete mixtures containing an additive were tested both in the claimed component ratios and beyond. Concrete samples made according to the composition indicated in the known solution (prototype) were also tested.

The compositions of complex additives according to the known and claimed solutions, as well as the physico-mechanical characteristics of concrete samples are presented in tables 1, 2.

From the tables it follows that the claimed complex additive provides an increase in the plasticity of building mixtures, strength, frost resistance of concrete, reduces the freezing temperature of the liquid phase to -14 ... -16 ° C (tests No. 3-9, 12, 14, 17), and when exceeded or reducing the maximum content of hardening accelerators or plasticizers in the composition of the additive, the strength, frost resistance of concrete decreases and the freezing temperature of the liquid phase increases (tests No. 2, 10-11, 13, 15-16).

The proposed composition of the components allows you to get a new highly effective complex additive, which provides an increase in the mobility of concrete and mortar mixtures, increase the strength and frost resistance of concrete, lowering the freezing point of the liquid phase in mortar mixtures to -14 ... -16 ° C.

Table 2. - The composition of the hardening accelerator in experimental samples of concrete specified in table 1

No. The composition of the hardening accelerator, wt.% Mixture of ballast, sodium thiosulfate and sodium thiocyanate salts Formic Acid Salts Sodium formate Calcium formate Potassium formate Sodium Acetate 1 control - - - - - 2 99.7 0.3 - - - 3 99.5 0.3 0.2 - - four 80.0 10.0 - 10.0 - 5 70.0 - 20,0 - 10.0 6 60.0 10.0 10.0 10.0 10.0 7 50,0 4.0 5,0 15.0 26.0 8 50,0 - 15.0 18.0 17.0 9 34.0 15.0 9.0 9.0 33.0 10 60.0 35.0 - - 5,0 eleven 66.0 - - 34.0 - 12 34.0 15.0 15.0 3.0 33.0 13 33.0 - 50,0 - 17.0 fourteen 40,0 35.0 - - 25.0 fifteen 20,0 - 25.0 25.0 30,0 16 78.0 15.0 - - 7.0 17 40,0 15.0 15.0 - 30,0 18 prototype 100.0

Claims (3)

1. A complex additive in concrete mixtures and mortars containing a hardening accelerator - a mixture of ballast salts based on sodium thiosulfate and thiocyanate and a plasticizer, characterized in that it contains R60 acrylate as a plasticizer, and the hardening accelerator additionally contains formic acid salt and, if necessary, acetate sodium in the following ratio of its components, wt.%:
a mixture of ballast salts based thiosulfate and sodium thiocyanate 34-99.5 formic acid salt 0.5-33.0 sodium acetate rest
in the following ratio of components, wt.%:
hardening accelerator 20.0-99.5 plasticizer - acrylate R60 0.5-80 2. The complex additive according to claim 1, characterized in that the salt of formic acid contains sodium formate or calcium formate, or potassium formate, or a mixture thereof. 3. The complex additive according to claim 1, characterized in that it further comprises a polycarboxylate or amkyros, or polynaphthalene sulfonate, or technical lignosulfonate, or a mixture thereof, as a plasticizer.