RU2619623C1 - Blend composition - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: blend composition is obtained from the mixture consisting of sandy soil, Portland cement, fine limestone with the specific surface of 260 m²/kg, an additive represented by the aqueous solution of polycarboxylate copolymers of methacrylic acid with the density of 1.02 g/cm³ and the hydrogen index of 5.0-6.0, at the following component ratio, wt %: sandy soil 79.74-80.45; Portland cement 8.24-8.53; said limestone 0.90-0.95; said additive 0.08-0.09; water 10.33-10.69.

EFFECT: increasing the compressive strength of reinforced soil.

1 tbl

Description

The invention relates to building materials and can be used in road construction for the device of the bases of roads.

Known raw mix used in road construction (RU No. 2519283 C1, E01C 21/00, date of publication. 06/10/2014, bull. No. 16), consisting of Portland cement, soil, mineral aggregate, silicone fluid "Silor" and water .

The disadvantage of this technical solution is the lack of compressive strength of the fortified soil.

Known raw mix used in road construction (RU No. 23035149 C2, Ε01C, publication date. 08.27.2007, bull. No. 24), consisting of cement, a surfactant, a surfactant containing a cationic surfactant as a surfactant substance DON-52 KP, and water.

The disadvantage of this technical solution is the lack of compressive strength of the fortified soil.

Closest to the technical nature of the claimed invention is the raw material mixture used in road construction (RU No. 2392244 C1, C04B 28/04; C04B 14/10; C04B 111/20, date of publication. 06/20/2010, bull. No. 17 ), consisting of the following components, wt. %:

Clay soil 78-83 Portland cement 4-8 Chemical additives provided enzyme preparation "Dorzin" 0.03-0.06 Water the remainder

The disadvantage of this technical solution is the lack of compressive strength of the fortified soil.

The problem to which the invention is directed, is the creation of a composite composition that provides increased compressive strength and frost resistance of fortified soil.

This object is achieved in that the raw material mixture containing soil, Portland cement, the additive and water contains sandy soil as a soil, additionally contains finely ground limestone with a specific surface of 260 m ² / kg, and as an additive it contains an aqueous solution of polycarboxylate copolymers of methacrylic acid with a density 1.02 g / cm ² , a pH of 5.0-6, in the following ratio of components, wt. %:

Sandy ground 79.74-80.45 Portland cement 8.24-8.53 Indicated Limestone 0.90-0.95 Specified Additive 0.08-0.09 Water 10.33-10.69

The increase in compressive strength and frost resistance of the soil being strengthened is due to an increase in the hydration activity of the cement-containing system, which is accompanied by synthesis reactions, and, as a result, an increase in the density of soil to be strengthened.

The increase in the hydration activity of the composition is due to the use of an aqueous solution of a polycarboxylate copolymer of methacrylic acid with a hydrogen index of 5.0-6.0, which has activating as well as plasticizing effects. Due to the reduced value of the hydrogen index, this additive shifts the acid-base balance in the cement-containing system of the soil being strengthened towards the formation of reaction products, i.e. increases the degree of hydration of cement in the system. In this case, hydration processes are accompanied by synthesis reactions occurring between finely ground limestone and reactive hydrolysis lime formed during cement hydration, with the formation of the main calcium bicarbonate 2СаСО ₃ ⋅Са (ОН) ₂ ⋅1.5Н ₂ O, the presence of which is confirmed by X-ray phase data analysis, the presence on the x-ray diffraction maxima at d / n = (4.90; 3.29; 2.08) ⋅ ^{10 -10} m, characteristic of the main calcium bicarbonate.

The use of this additive as a result of the plasticizing effect of the action, on the one hand, and also as a result of the formation of an increased number of hydrated phases of various compositions, on the other hand, contributes to an increase in the density of soil to be strengthened, which results in the production of strengthened soil with increased compressive strength.

At the filing date, according to the authors and the applicant, the claimed composition is unknown and this technical solution has world novelty.

According to the authors and the applicant, the claimed invention meets the eligibility criterion - inventive step.

The claimed invention is industrially applicable and can be used in road construction with the device foundations of roads.

Concrete example

1. Preparation of the additive

1.1. A concentrated solution of a polycarboxylate copolymer of methacrylic acid is dosed.

1.2. Dispense water

1.3. The dosed components are transferred to a mixer with a paddle mixer, where everything is thoroughly mixed until a homogeneous aqueous solution with a density of 1.02 g / cm ² and a hydrogen index of 5.0-6.0 is obtained; the prepared aqueous solution is transported to a storage polyethylene tank with a volume of 1 m ³ equipped with a pump and a crane.

2. Preparation of the dry mixture

2.1. Portland cement is dosed.

2.2. Dose finely ground limestone with a specific surface area of 260 m ² / kg.

2.3. The dosed components are transported to a two-blade horizontal mixer, where the components dosed according to clause 2.1 and clause 2.2 are thoroughly mixed for 10 minutes.

2.4. The dry mixture obtained according to clause 2.3 is transported to a storage tank.

3. Preparation and enrichment of the soil

3.1. The soil at the base of the road is loosened and removed from the base of the road using special equipment.

3.2. Loosened soil is dosed and transported to an open type paddle mixer.

3.3. The dry mixture from the storage tank (p. 2.4) is dosed and transported to the mixer (p. 3.2).

3.4. An aqueous solution from the storage tank (Clause 1.3) is dosed and transported to the mixer (Clause 3.2).

3.5. Dose water and transport it to the mixer (paragraph 3.2).

3.6. All necessary dosage components are thoroughly mixed in a mixer (paragraph 3.2). Carefully prepared soil is laid at the base of the road and samples are prepared from the prepared mixture to determine the compressive strength.

The results are presented in the table.

Claims (2)

A composite composition of a mixture containing soil, Portland cement, an additive and water, characterized in that sandy soil is used as soil, additionally contains finely ground limestone with a specific surface of 260 m ² / kg, and as an additive contains an aqueous solution of methacrylic acid polycarboxylate copolymers with a density 1.02 g / cm ³ and a pH of 5.0-6.0, in the following ratio of components, wt. %: Sandy ground 79.74-80.45 Portland cement 8.24-8.53 Indicated Limestone 0.90-0.95 Specified Additive 0.08-0.09 Water 10.33-10.69