RU2491243C2 - Method of preparing cement-based complex additive for concrete mixture - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to the industry of construction materials and can be used in preparing complex additives for making concrete and reinforced concrete articles and structures. The engineering problem of the invention is improving workability of concrete mixtures, increasing concrete strength (in the early stages and later stages of hardening), water impermeability and frost resistance. The problem is solved by that the plasticiser used is a powdered compound selected from: technical lignosulphonate, a superplasticiser based on a sodium salt of naphthalene sulphonic acid and C-3 formaldehyde, a mixture of said plasticisers in equal amounts, and liquid glass as a silica-containing component, wherein at the beginning, said powdered plasticiser is stirred in water until obtaining a solution with concentration of 35-40%, followed by addition of liquid glass in an amount which enables to obtain a ready complex additive with concentration of 60-70%. When using one of said plasticisers as aqueous solution, it is mixed with liquid glass until obtaining a ready complex additive with concentration of 60-70%.

EFFECT: complex additive can be prepared in any mixing equipment.

2 cl, 1 tbl

Description

The invention relates to the building materials industry and may find application in the manufacture of complex additives for the production of concrete and reinforced concrete products and structures.

It is known to use in the technology for preparing concrete mixtures of various types of superplasticizers based on sulfonated melamine formaldehyde resins, condensation products of naphthalene sulfonic acid, modified lignosulfonates, polycarboxylates, etc. (see Yu.M. Bazhenov. Concrete technology. M., 2002, p. 48, VG Batrakov. Modified concrete. Theory and practice. M., 1998, p. 144).

A known method of preparing a complex modifier for concrete mix, comprising mixing silicon dioxide dispersed mineral component with a plasticizer and water, followed by drying and granulation in a gas stream (RU 2160723, 25.11.1998).

Closest to the technical nature of the claimed invention, i.e. The prototype is a method for producing a complex additive, including grinding a silica-containing component with C-3 superplasticizer to a specific surface of 200-250 m ² / kg, followed by the introduction of a hardening accelerator - calcium nitrate and milling to a specific surface of 300-400 m ² / kg (RU 2385302 September 11, 2008).

The technical task of the present invention is to improve the workability of concrete mixtures, increase the strength of concrete (in the early and late stages of hardening), as well as improve its water resistance and frost resistance due to the method of introducing a complex additive of the proposed composition.

The solution of the technical problem is achieved by the fact that as a plasticizer use a mixture of powdery compounds of technical lignosulfonate and superplasticizer based on Na salt of naphthalene sulfonic acid and C-3 formaldehyde in equal quantities, and as a silica-containing component, liquid glass, and first the specified mixture of powdery plasticizers is mixed in water to obtain a solution of 35-40% concentration, followed by the introduction of liquid glass into it in an amount providing howl complex additives 60 -70% concentration.

The preparation of complex additives is possible in any mixing equipment. The additive obtained in liquid form can be dosed into the mixing water when preparing the concrete mixture directly at the construction site or at concrete mixing units. It can be stored in liquid containers; it should be shaken before use.

The amount of additive is 1.3-1.7% by weight of cement.

The presence in the complex additive of a mixture of Na salt of naphthalenesulfonic acid and C-3 formaldehyde and lignosulfonate provides an increase in plasticization of cement systems by 60-64%.

The use of Na ₂ O.nSiO ₂ water glass as a hardening accelerator is due to the fact that water glass is water-soluble silicic acid salts, which are electrolytes, i.e. accelerators of hardening of cement systems (AE Sheikin. Building materials. M., SI, 1978, p. 60).

When Na ₂ O.nSiO ₂ liquid glass is introduced into cement systems, it interacts with aluminate and ferrite components of cement with the formation of hydroaluminosilicates and calcium hydroaluminoferrites, which leads to accelerated hydration of C ₃ A and its interaction with CaSO ₄ .2H ₂ O with the formation of ettringite (Yu.M. Bazhenov. Concrete technology. M., DIA, 2002, p. 49; Handbook of cement chemistry. L., SI, 1980, p. 192).

In addition, it is known that liquid glass significantly increases water resistance and frost resistance, as it clogs the pores of concrete.

To implement the method, the following materials were used: Portland cement M400D0, medium-sized quartz sand, water, powder S-3 superplasticizer powder (based on the sodium salt of the condensation product of naphthalene sulfonic acid and formaldehyde), corresponding to TU 6-36-02404-229-625-9 "Plasticizer C -3 ".

Specifications ", technical lignosulfonate (LST), which is a sodium salt of lignosulfonic acid with impurities, corresponding to TU 13-0281036-029-94" Technical lignosulfonate. Specifications ", liquid glass Na ₂ O.nSiO ₂ with a module of 2.0-3.5 and a density of 1.3-1.6 g / cm ³ , corresponding to TU 5921-001-63022882-2010.

A method of preparing a complex additive consists in mixing in an aqueous medium a mixture of plasticizers LST and C-3 and a siliceous component of water glass. The complex additive consisted of three components, including wt.%: LST - 18, C-3 - 18 and liquid glass - 64. The additive was introduced in an amount of 1.7% by weight of cement.

The test of the complex additive was carried out on fine-grained concrete mixtures with the following material consumption in kg / m ³ : cement - 625, sand - 1562, water - 206. The preparation of concrete mixtures was carried out in conventional mixers. Hardening was carried out under normal conditions.

The properties of fine-grained concrete with a complex additive are presented in the table.

Concrete with the proposed complex additive had strength growth indicators at the age of: 1 day - 198%, 3 days - 196%, 28 days - 138%, frost resistance - 1800 cycles, water resistance W24. Similar parameters of the prototype: 1 day - 117%, 3 days - 184%, 28 days - 132%.

Claims (2)

1. A method of preparing a complex additive for cement-based concrete mix, which consists in mixing a plasticizer with a silica-containing component, characterized in that a mixture of powdered technical lignosulfonate compounds and a superplasticizer based on Na salt of naphthalene sulfonic acid and C-3 formaldehyde in equal amounts is used as a plasticizer, and as a silica-containing component, liquid glass, and first, a mixture of these powdery plasticizers is mixed in water to floor the teachings of a solution of 35-40% concentration followed by the introduction of liquid glass into it in an amount that provides a ready-made complex additive of 60-70% concentration. 2. The method according to claim 1, characterized in that an aqueous solution of a mixture of these plasticizers is used and mixed with liquid glass until a ready-made complex additive of 60-70% concentration is obtained.