RU2608139C1 - Hybrid organomineral additive - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to complex organomineral additives to Portland cement. In particular additive enables to save up to 30–40 % of clinker part of cement. Complex additive contains as a mineral component a mixture, consisting of metakaolin, tripoli and flue ash, and as a chemical additive – polycarboxylate-based super plasticizer Pantarhit PC160 Plv or naphthalene formaldehyde superplasticizer SP-1, in following ratio of components, wt%: metakaolin 19–20, tripoli 6–9.5, flue ash 70–73, Pantarhit PC160 Plv or SP-1 1–1.5.

EFFECT: technical result is saving cement, increased strength, water impermeability, frost resistance of obtained articles.

1 cl, 2 tbl

Description

 The invention relates to complex organomineral additives to Portland cement. The additive allows you to save up to 30-40% of the clinker part of cement. It can find application in the manufacture of concrete and reinforced concrete products, cements, mortars and dry mixes made on the basis of Portland cement.

A complex concrete modifier is known (RF Patent No. 2288197, IPC C04B 22/00, C04B 103/14. Publ. November 27, 2006) containing a dispersed mineral component including rock or its mixture with fly ash and / or products gas purification of furnaces smelting silicon-containing alloys, and a plasticizing additive, the dispersed mineral component as a rock includes heat-treated kaolin and gypsum, and the modifier may further include calcium hydroxide in the following ratio, wt. %:

dispersed mineral component 80-98 plasticizer 2-20 calcium hydroxide 0-10

which ensures the presence in the modifier of the following oxides at the following content, wt. %:

SiO ₂ 20-66 Al ₂ O ₃ 4-27 SO ₃ 4-26 CaO 3-22 H ₂ O 3-12

The disadvantages of this complex modifier are a high dosage of plasticizing additives, which leads to a rise in price of the product, a low degree of substitution of Portland cement.

Known organomineral modifier for concrete mixtures and mortars and the method of its production (RF Patent No. 2382004, IPC C04B 22/06, C04B 24/16, C04B 103/30, C04B 103/60. Publ. 20.02.2010), in the composition of which includes a dispersed mineral component, including a highly dispersed active pozzolanic additive based on silica, not containing silica and not having pozzolanic activity, a microfiller and plasticizing additive, in the following ratio of components, wt. %:

fine active pozzolanic silica based additive 25-51 silica free and pozzolanic free microfiller 40-60 plasticizer 5-20

The disadvantages of the organomineral modifier of this composition are: low saving of the binder in the composition of the concrete mixture, high specific surface area of the mineral components of the modifier, a large dose of superplasticizer, as well as a fairly high water-cement ratio of concrete solutions.

The closest in technical essence and the achieved result is a complex organomineral modifier for concrete mixes and mortars (RF Patent No. 2476395, IPC C04B 24/16, C04B 18/18, C04B 20/00, C04B 103/32. Publ. 02.27.2013 d), which includes a silica-containing component and a superplasticizer based on sodium polymethylene naphthalenesulfonates, additionally contains cement waste - cement dust with hydration activity, and sugar production waste - molasses as an additional plasticizing additive and To stabilize the resulting calcium hydrosilicates, and as a silica-containing component, silica fume is used in the following ratio of components, wt. %:

syrup 0.3-6 cement production waste - cement dust 51-88.3 superplasticizer based polymethylene naphthalenesulfonates sodium 1.4-8 silica fume 10-35

The disadvantage of this organomineral modifier is a sufficiently low degree of replacement of cement with a complex additive - 5%.

The task to which the invention is directed is to develop a composition of a hybrid organomineral modifier, the introduction of which saves Portland cement, high strength and operational characteristics of concrete and reinforced concrete products under any hardening conditions.

The stated technical problem is solved in such a way that the hybrid organomineral additive contains an optimally selected composition containing, as a mineral component, a mixture consisting of metakaolin, tripoli and acid fly ash, and Pantarhit PC 160 Plv, a polycarboxylate-based hyperplasticizer or naphthalene formaldehyde, as a chemical additive superplasticizer - SP-1, in the following ratio of components, wt. %:

metakaolin 19-20 thrashing 6-9.5 sour fly ash 70-73 Pantarhit PC160 Plv (SP-1) 1-1.5 (1-1.5)

The following materials were used to make a hybrid organomineral additive in Portland cement: Magnitogorsk metakaolin VMK-47 of Sinergo LLC (TU 572901-001-65767184-2010), which has in its composition, weight. %: SiO ₂ 54.1; Al ₂ O ₃ 44.8; Fe ₂ O ₃ 0.1; Tripoli field "Murachevskaya Gora" Kaluga region), which has in its composition, weight. %: CaO 1.43; SiO ₂ 86.0; Al ₂ O ₃ 7.14; Fe ₂ O ₃ 3.3; MgO 0.83; SO ₃ 0.01; Na ₂ O 0.89; TiO ₂ 0.39; ZrO 0.01; fly ash of the Troitsk state district power station (TU 5712-001-76851389-2009), having in its composition, weight. %: CaO 1.4; SiO ₂ 56.5; Al ₂ O ₃ 33.5; Fe ₂ O ₃ 4.52; MgO 1.12; SO ₃ 0.2; MnO 0.14; powdered Pantarhit PC160 Plv hyperplasticizer (EN 934-2: 2009), powdered naphthalene formaldehyde superplasticizer SP-1 (manufactured by Polyplast OJSC, TU 5870-005-58042865-2005).

Obtaining a hybrid organomineral additive involves mixing the mineral components separately or with a plasticizer in a mechanical (screw, paddle or other) mixer until the components are completely homogenized. To achieve better mobility of the concrete mixture, a plasticizer can also be introduced with mixing water during the preparation of concrete and mortar mixtures.

The resulting hybrid organomineral additive was introduced in an amount of 30-40% by weight of Portland cement to prepare a concrete mixture of the composition (kg / m ³ ): cement - 490, sand with a bulk modulus of 2.7 - 685, crushed stone - 1200, water - up to mobility P2. The plasticizer was introduced along with mixing water. The mobility of concrete was determined according to GOST 10181.1, the strength of concrete under various storage conditions - according to the results of samples - cubes 10 × 10 × 10 cm according to GOST 10180, frost resistance - according to the results of samples - cubes 10 × 10 × 10 cm according to GOST 10060.

Strength tests were carried out after heat-moisture treatment according to the regime (2 + 4 + 6 + 2) and at the age of 28 days. Frost resistance was determined at the age of 28 days.

The composition of the hybrid organomineral additives are presented in table. one.

The composition of concrete and the results of mechanical tests are given in table. 2.

The data presented in table. 2, illustrate examples of obtaining a hybrid organomineral additive in concrete, hardening both under normal conditions and subjected to heat and moisture treatment.

Studies of the effect of hybrid additives on the properties of the resulting concrete showed the possibility of replacing 30-40% of Portland cement. Moreover, the introduction of a hybrid additive in this range makes it possible to increase the compressive strength of concrete by an average of 5-50%, density and frost resistance compared to a control sample. According to the table. the most optimal should be considered compounds No. 3, 4 with the use of polycarboxylate superplasticizer. At the same time, the use of SP-1 superplasticizer allows you to save 30-40% of Portland cement without reducing the physical and mechanical characteristics.

The given examples do not exhaust all possible options for obtaining a hybrid organomineral additive according to this application and do not fully disclose the technical potential of a hybrid additive when used in concrete, mortar, dry mixes, however, they clearly demonstrate the possibilities provided by the introduction of this hybrid additive, as well as the savings in Portland cement.

Claims (2)

 A hybrid organomineral additive in Portland cement, characterized in that it contains a mixture of highly active metakaolin, tripoli and acid fly ash as a mineral component, and Pantarhit PC160 Plv, a polycarboxylate-based hyperplasticizer or naphthalene formaldehyde superplasticizer 1, SP-1 in the following ratio of components, wt. %: metakaolin 19-20 thrashing 6-9.5 sour fly ash 70-73 Pantarhit PC160 Plv or SP-1 1-1.5