UA31180U - Complex additive for concrete mixture - Google Patents

Abstract

The utility model relates to building materials and can be used for production of concrete constructions of buildings and structures of civil, public and industrial destination.

Description

Description of the invention

The useful model belongs to the field of building materials and can be used for the production of 2 concrete structures of houses and structures of civil, public and industrial purposes.

The closest to the useful model that is claimed and accepted as a prototype is a complex additive for concrete mixture (see the declaration patent of Ukraine Mo40214А, application 12.10.2000, publ. 16.07.2001, M. Cl.

Со4В 28/02), which includes neutralized solutions of desulfurization of coke gas based on rhodanide, thiosulfate and sodium sulfate, lignosulfonate technical and organic component in the form of a synthetic polymer. The well-known 70 complex additive for the concrete mixture contains neutralized waste from coke plants based on rhodanide, thiosulfate and sodium sulfate as a hardening accelerator, and polycarboxyleether as an organic additive.

The well-known complex additive for the concrete mixture contains components in this ratio, wt. 9o: neutralized coke plant waste based on rhodanide, thiosulfate and sodium sulfate base lignosulfonate technical 7-11 polycarboxylate 25-35

The well-known complex additive for the concrete mixture does not provide concrete with the necessary strength, mainly at the early stage of hardening, and high frost resistance, which limits the scope of its application.

This is due to the fact that the composition of the well-known complex additive for the concrete mixture contains neutralized solutions of desulfurization of coke gas based on rhodanide, thiosulfate and sodium sulfate, which are weak electrolytes and, as a result, do not provide, in combination with the plasticizing components of the concrete mixture, early strength and increased frost resistance of concrete.

The basis of the technical solution is the task of improving the complex additive for the concrete mixture, in which the introduction of new components and their new ratio makes it possible to create a regulated З7З structure of concrete, to increase the multifunctionality of the complex additive for the concrete mixture and, due to this, to increase the strength and frost resistance of concrete .

The task is solved by the fact that in the complex additive for the concrete mixture, which includes neutralized solutions for desulfurization of coke gas based on rhodanide, thiosulfate and sodium sulfate, "2 lignosulfonate technical and organic component in the form of a synthetic polymer, new, according to the technical solution, is that , that it additionally contains calcium nitrate, as a synthetic polymer - polyacrylates, with the following ratio of components, wt. 95: neutralized solutions for desulfurization of coke gas based on cherodanide, thiosulfate and sodium sulfate - 20-80; calcium nitrate - 10-40; technical lignosulfonate - 5-20; polyacrylates - 5-20. --

The cause-and-effect relationship between the set of essential features of the technical solution and the technical result that "C is achieved is that the composition of the initial components of the complex additive for the concrete mixture, which is claimed, namely the additional introduction of calcium nitrate into the complex additive for the concrete mixture ; "introduction into the complex additive for the concrete mixture as a synthetic polymer of polyacrylates; optimization of the quantitative composition of the complex additive for the concrete mixture in combination with the known characteristics of sshh c provides an increase in the strength and frost resistance of concrete, into which the complex additive for the concrete and the applied mixture is introduced. "» The simultaneous introduction into the composition of the complex additive for the concrete mix of neutralized solutions of desulfurization of coke gas based on rhodanide, thiosulfate and sodium sulfate, calcium nitrate, technical lignosulfonate and polyacrylates in the stated ratio provides increased strength and

Ho) frost resistance of concrete, while each component of the complex additive performs its function. During - sealing, setting and hardening of the concrete mixture, into which the declared complex additive is introduced, a number of reactions occur both between the components of the complex additive for the concrete mixture, and between the complex additive and the components of cement.

The introduction of calcium nitrate into the complex additive for the concrete mixture provides regulation of the structure of concrete, compaction, and an increase in waterproofing. This is due to the fact that at the stage of setting of the concrete sl mixture, a reinforcing structural framework of needle crystals is formed in it, for example, from crystals

Sas(n)MO»z, which are then overgrown with calcium sulfoaluminate crystals and other compounds at the stage of maturation and hardening of concrete. This forms a dense structure and helps increase the density and strength of concrete, as well as ensures its intensive hardening at negative temperatures, increases the frost resistance of concrete. At the same time, the introduction of calcium nitrate, which is an electrolyte, ensures an increase in the ionic strength of the solution. A decrease in the amount of the component will not provide the necessary reaction rates, and an increase in the amount of the component can lead to a deterioration in the quality of concrete, since hydroxyls can appear on the surface of the vapor, mainly on the corner elements of concrete structures. because polyacrylates, obtained by polymerization of ethers of acrylic and methacrylic acids, which are introduced into the complex additive for the concrete mixture, contribute to increasing adhesion, waterproofing and increasing the strength of concrete, and also increase its frost resistance. Being superplasticizers, polyacrylates are absorbed on the surface of cement grains and give them a negative charge. At the same time, the cement grains repel each other and give movement to the cement mortar and mineral components. The chains that make up the superplasticizer molecules are 65 quite long, which provides intense repulsion. As a result, the effectiveness of plasticization increases, and its action continues. -D-

A plasticizing and water-reducing effect is also exerted by technical lignosulfonate, which is part of the complex additive for the concrete mixture being applied for. Lignosulfonate is formed from lignin during sulfite cooking of wood with sodium-based acid in the production of cellulose and contains (95): sodium lignosulfonate - 66-71, sugars - 10-12, sodium salts of sulfuric acid - 12-14. Technical lignosulfonate is a surface-active substance that reduces the surface tension of water and, after combining with cement and mineral components, is in contact with all components of concrete. As a result, their mobility increases, which ensures plasticity of concrete, reduction of water consumption, water separation, increase of strength and impermeability. The use of technical lignosulfonate as a plasticizer 7/0 Component of a complex additive for concrete mixes also improves the ease of laying and slows down the initial setting of concrete mixes.

The quantities of the components of the complex additive for the concrete mixture, which are claimed, are set experimentally and are optimal for achieving the required technical result.

Polyacrylates, such as methyl acrylate, methyl acrylate, acrylonitrile, and others, as well as neutralized coke gas desulfurization solutions based on rhodanide, thiosulfate, and sodium sulfate of the following composition (wt. 9Uv): sodium rhodanide - 15-22, sodium thiosulfate - 12-21, sodium sulfate - up to 6, water - the rest.

Test samples of the concrete mixture containing the same amount of the complex additive containing the declared components in the declared ratio, as well as in the ratios in which the amount of 20 determined components are taken outside the declared limits, were made. In the same conditions, samples of concrete mixture with P5 mobility were prepared, after which they were subjected to research on the influence of the composition of the complex additive on the properties of concrete: compressive strength at the age of 17 days, compressive strength at the age of 28 days, frost resistance (cycles of alternating freezing and thawing). The results of the research are given in the table.

Examples MoMo1-5 show the indicators of the tested samples made using a complex additive containing an average amount of components, namely: technical lignosulfonate - 15 wt. 905, polyacrylates - 15 wt. 95, neutralized solutions of desulfurization of coke gas based on rhodanide, - thiosulfate and sodium sulfate, wt.uo - 65, 60, 45, 30, 25, and calcium nitrate, respectively, wt.9o - 5, 10, 25, 40, 45 The best indicators, characterized by the compressive strength of concrete and frost resistance, were obtained in samples based on the examples of MoMo2-4. At the same time, the indicators characterizing concrete with a complex additive, which

Zo Contains calcium nitrate in an amount smaller than the declared amount, much lower (example Mo1). When the amount of calcium nitrate is increased above the stated, the compressive strength of concrete at the age of 1 day is high, and the compressive strength at the age of 28 days is lower than the strength of concrete with the stated ratio of components (example Mob). -

Examples of MoMob-10 show the results of the study of samples made using a complex additive that contains an average amount of calcium nitrate - ZOmas. 95, technical lignosulfonate - 18 mass. 9b, - neutralized coke gas desulfurization solutions based on rhodanide, thiosulfate and sodium sulfate, wt. 90 s - 50, 47, 37, 32, 27, and the amount of polyacrylates was, respectively, wt. 90 - 2, 5, 15, 20 , 25. and: complex additive neutralized nitrate / lignosulfonate solutions of polyacrylates, the effect of concrete on frost resistance, cycle. t s desulfurization of calcium coke gas technical compression, MPa i pnoinnnin pot FULL HIGHER SCHOOLS; 50ю01ю61501005 zv | voi 2 o sh 61191819 i voi - svo 0 0ю18010053100069 | 6523 0в001ю1801000ю00111в5 | howl with - | 17 those for polycarboxyleether prototype c The best characteristics of concrete containing a complex additive are obtained in examples MoMo7-9. In cases where the content of polyacrylates is less than 5 wt. 95, or more than 20 wt. 95, i.e., different from the declared, concrete samples made with such additives have lower compressive strength at the age of 1 day (examples MoMob,10).

Example 11 gives data characterizing a well-known complex additive (according to the prototype), which contains: neutralized solutions of desulfurization of coke gas based on rhodanide, thiosulfate and sodium sulfate - 55 mass.

Fo, technical lignosulfonate - TOmas. 95, polycarboxylate - 35 wt. 95. The compressive strength of such samples is: at the age of 1 day 14.0 MPa, at the age of 28 days - 64.0 MPa, frost resistance - 200 cycles, that is, concrete with the well-known 65 Complex additive has lower indicators.

The industrial applicability of the claimed useful model is confirmed by the possibility of obtaining a complex additive for a concrete mixture from known components, taken in the claimed ratio, on known equipment.

Thus, the complex additive for the claimed concrete mixture provides increased compressive strength of concrete at the age of 17 days, at the age of 28 days, and frost resistance, which will allow the widespread use of the complex additive, which is claimed, in the construction of structures of various purposes.

Claims (1)

The formula of the invention 10. c, y , , , Complex additive for the concrete mixture, which includes neutralized solutions of desulfurization of coke gas based on rhodanide, thiosulfate and sodium sulfate, lignosulfonate technical and organic component in the form of a synthetic polymer, which is distinguished by the fact that it additionally contains calcium nitrate, as synthetic polymer - polyacrylates, with the following ratio of components, wt. 90: neutralized solutions 20-80 of coke gas desulfurization based on rhodanide, thiosulfate and sodium sulfate, calcium nitrate 10-40 technical lignosulfonate 5-20 polyacrylates 5-20. Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2008, M 06, 25.03.2008. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. - ("in") (ge) "- "- Zo "o - and? (55) - - so c2 60 b5