RU2616031C1 - Blend composition - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: blend compositions of raw mix consisting of sandy ground, filler presented by electric filter ash with a specific surface area of 380 m²/kg and fine limestone with a specific surface area of 260 m²/kg, an additive presented by aqueous solution with a density of ρ=1.025 g/cm³ and a pH value of 5.0 and including polycarboxylate copolymers of metacrylic acid with a density of ρ=0.95 g/cm³ and a pH-value of 7.0±0.5, which are modified by calcium chloride at the following mass ratio of additive elements, wt %: polycarboxylate copolymer of metacrylic acid with a density of ρ=0.95 g/cm³ and a pH value of 7.0±0.5 - 20.0-22.0; calcium chloride of 1.8-2.0, water - 76.2-78 at the following composition mass ratio, wt %: sandy ground - 76.50-77.0, Portland cement - 11.05-11.25, specified limestone - 0.20-0.22, specified ash - 1.95-2.02, specified additive - 0.09-0.11, water - 9.71-9.9.

EFFECT: increased bending tensile strength of improved soil.

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Description

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

Known raw mix used in road construction (RU No. 2305149, Ε01C 7/36, 08/27/2007, bull. No. 24), consisting of cement, a surfactant containing cationic surfactant DON as a surfactant -52 KP, and water.

The disadvantage of this technical solution is the lack of tensile strength in bending.

Known raw mix used in road construction (RU No. 2392244, С04В 28/04, 06/20/2010, bull. No. 17), consisting of clay soil, Portland cement, a chemical additive, represented by the enzyme preparation "Dorzin", and water.

The disadvantage of this technical solution is the lack of tensile strength in bending.

Closest to the technical nature of the claimed invention is the raw material mixture used in road construction (RU No. 2519283, ЕСС 21/00, 06/10/14, bull. No. 16), consisting of Portland cement, soil, mineral aggregate, silicone fluid " Silor "and water, in the following ratio, wt.%:

Portland cement 6-12 silicone fluid "Silor" 0.05-0.5 priming 15.2-68.8 aggregate 15.2-68.8 water 7.5-11.95

The disadvantage of this technical solution is the lack of tensile strength in bending.

The problem to which the invention is directed, is to create a composite composition that provides increased tensile strength when bending reinforced soil.

The problem is achieved in that the composition of the raw material mixture, including soil, Portland cement, aggregate, additive and water, contains sandy soil as soil, electrostatic ash with a specific surface area of 380 m ² / kg and finely ground limestone with specific surface of 260 m ² / kg, as an additive comprises an aqueous solution with a density of ρ = 1,025 g / cm ³ and with pH = 5.0, consisting of polycarboxylate copolymers of methacrylic acid with a density of ρ = 1,025 g / cm ³ and pH value . H = 7.0 ± 0.5, modified with calcium chloride in the following ratio additive, wt%:

polycarboxylate copolymer of methacrylic acid with a density ρ = 1,025 g / cm ³ and hydrogen pH = 7.0 ± 0.5 20.0-22.0 calcium chloride 1.8-2.0 water 76.2-78.0

in the following ratio of components of the composition, wt.%:

sandy ground 76.50-77.0 Portland cement 11.05-11.25 specified limestone 0.20-0.22 specified ash 1.95-2.02 specified additive 0.09-0.11 water 9.71-9.9

The increase in tensile strength during bending of reinforced soil is due to:

1) increasing the hydration activity of the composite mixture with the formation of an increased amount of low-basic tobermorite-like hydrosilicates with a CaO / SiO ₂ ratio of less than or equal to 1, the crystal structure of which is represented by fibrous crystals having the form of long fibers or twisted foil;

2) an increase in the density of soil to be strengthened due to a rational ratio of components of different fineness and an increased number of newly formed hydrated phases, which are inorganic glue between the components of the composition.

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 density ρ = 1.025 g / cm ³ and a pH of pH = 7.0 ± 0.5, modified with calcium chloride, which has a double action effect: plasticizing and activating.

The specified additive increases the reactivity of all components of the composition, including electro-filter ash containing silicon dioxide and characterized by an increased specific surface area, which leads to the additional formation of low-basic tobermorite-like hydrosilicates with a CaO / SiO ₂ ratio of less than or equal to 1, the presence of which is confirmed by the presence of an exothermic effect in the temperature range (815-830) ° С during differential thermal research.

The increase in the density of the soil to be strengthened is due to the plasticizing effect of this additive, as well as the use of components of the composition in a rational ratio having different specific surfaces, and the formation of an increased number of complex hydrated phases forming contacts between the components of the composition, which contributes to an increase in the density of the soil to be strengthened, as a result of which is an increase in strength, including tensile strength when bending reinforced soil.

At the filing date, according to the authors and the applicant, the claimed composition is not known and this technical solution has world novelty.

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

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

Concrete example

I. Preparation of Supplement

1.1. Dose a solution of a polycarboxylate copolymer of methacrylic acid with a density ρ = 1,025 g / cm ³ and a pH value of pH = 7.0 ± 0.5.

1.2. Dose calcium chloride.

1.3. Dose water.

1.4. Dosage components are transported to a mixer with a paddle mixer, where everything is thoroughly mixed until a homogeneous aqueous solution with a density of 1.025 g / cm ³ and a hydrogen index of 5.0 is obtained; the prepared aqueous solution is transported to a storage polyethylene container with a volume of 1 m ³ equipped with a pump and a crane.

II. Dry mix preparation

2.1. Portland cement is dosed.

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

2.3. Dose electrostatic ash with a specific surface area of 380 m ² / kg.

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

2.5. The dry mixture obtained in accordance with 2.4 is transported to a storage tank.

III. Soil preparation and enrichment

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 volumetric dosed and transported to an open type paddle mixer.

3.3. The dry mixture from the storage tank (p. 2.5) is dosed and transported to the mixer (p. 3.2).

3.4. Dose water and transport it to a storage tank.

3.5. An aqueous solution of the additive from the storage tank (paragraph 1.4) is dosed and transported into dosed water (paragraph 3.4).

3.6. Dispensed water with a dosed additive from the storage tank of Section 3.4 is transported to the mixer of Section 3.2.

3.7. All necessary dosage components are thoroughly mixed in a mixer (paragraph 3.2). Carefully prepared soil is laid in the base of the road, and a control sample is taken, samples - prisms are made and tested to determine the tensile strength during bending according to GOST 12 801-98.

The results are shown in table 1.

Claims (4)

The composition of the raw mix, including soil, Portland cement, aggregate, additive and water, characterized in that it contains sandy soil as a soil, as an aggregate - electrostatic ash with a specific surface area of 380 m ² / kg and fine ground limestone with a specific surface of 260 m ² / kg, as an additive contains an aqueous solution with a density ρ = 1,025 g / cm ³ and a pH of pH = 5.0, consisting of polycarboxylate copolymers of methacrylic acid with a density of ρ = 0.95 g / cm ³ and a hydrogen pH = 7.0 ± 0.5, modifications nnyh calcium chloride in the following ratio additive, wt.%: polycarboxylate copolymer of methacrylic 20.0-22.0 acid with a density ρ = 0.95 g / cm ³ and hydrogen pH = 7.0 ± 0.5 calcium chloride 1.8-2.0 water 76.2-78, in the following ratio of components of the composition, wt.%: sandy ground 76.50-77.0 Portland cement 11.05-11.25 specified limestone 0.20-0.22 specified ash 1.95-2.02 specified additive 0.09-0.11 water 9.71-9.9