RU2603682C1 - Composition for road construction - Google Patents

Abstract

FIELD: roads.

SUBSTANCE: invention relates to road construction and can be used for arrangement of bases and topping of roads. Composition for road construction contains a mineral binder, filler, water and chemical additives such as octyltriethoxysilane / octyltriethoxysilane emulsion and an aqueous solution of copolymer based on polyoxyethylene derivatives of unsaturated carboxylic acid/carboxylate polyether, in the following proportions, wt%: portland cement - 6-12, filler - 72-88, octyltriethoxysilane/emulsion octyltriethoxysilane - 0.005-0.04, aqueous solution of copolymer based on polyoxyethylene derivatives of unsaturated carboxylic acid/carboxylate polyether - 0.02-0.20, water - 4.83-17.94.

EFFECT: high frost resistance and strength of materials from soil, sand and macadam-sand mixtures, as well as economic efficiency of construction.

1 cl, 1 tbl, 1 ex

Description

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

The most promising direction in solving the problem of the lack of durable stone materials and the real possibility of reducing the cost of construction and resource costs is the use of local reinforced materials in the construction of pavements. Summarizing the many years of domestic and foreign practical experience in the use of reinforced soils, we can conclude that soils reinforced with one binder are characterized by a large set of negative properties, especially low water and frost resistance, which significantly reduce the service life of the structural layer. The solution to the existing problem is possible by modifying the cement soil with various targeted additives.

A known mixture of reinforced soil containing a mineral binder - cement, soil, water and a chemical additive. As a chemical additive, the mixture contains calcium chloride (Bezruk V. M. Strengthening of soil and stone materials with inorganic binders. Materials of the V All-Union Scientific and Technical Meeting on the main problems of technological progress in road construction. M., 1971, pp. 35-49).

The disadvantage of this composition is the low strength, deformation stability and frost resistance of the resulting material.

It is known to use soil mixtures containing, in addition to soil, aggregate (expanded clay, expanded perlite, agloporite, etc.) 10-40%, astringent (cement) 6-9% and a chemical additive (organosilicon liquid GKZh-94) 0.5 -2% to create pavement. (Guidelines for the use of reinforced soils and industrial wastes in frost-protective heat-insulating layers of pavements. Ministry of Transport Construction. GVNII (SOYUZDORNII), Moscow, 1979).

The disadvantage of this design is that the introduction of GKZh-94 and these aggregates in the reinforced soil does not increase strength, but only increases frost resistance, which limits the scope of the strengthened soil only in additional (frost protection) layers of the base or the base of transitional pavements.

There is a composition consisting of soil reinforced with cement in an amount of 7-10% in combination with 0.25-1.75%) (by weight of cement) of the superplasticizer S-3 / SD-2A / LSTM-2 / N-1 (Methodical recommendations on the construction of road pavement bases from soils reinforced with Portland cement with the addition of superplasticizers. GVNII (SOYUZDORNII), Moscow, 1991).

The disadvantage of this design is that the introduction of plasticizers, classified as superplasticizers, in the reinforced soil leads to a relatively low increase in strength and frost resistance, which limits the possibility of using reinforced soil in the construction of pavements.

A known mixture containing cement, aggregate - soil, superplasticizer C-3, hydrophobizing silicone fluid GKZH-94 and water (Patent No. 2269499, publ. 02.10.2006).

The disadvantage of this mixture is the increased consumption of binder, excessively high strength, the set of which requires the cutting of expansion joints, as well as the plasticity of the mixture, which requires special concrete-laying equipment.

There is a mixture including soil, an inorganic binder - Portland cement, water and chemical additives - calcium chloride and bottoms from the production of organosilicon compounds (SU 966151, publ. 10/15/1982).

The disadvantage of this mixture is the lack of strength for use in the bases of pavements of a capital type.

Closest to the proposed invention in technical essence and the achieved result is a soil mixture for road construction, including mineral binder, water, soil, organosilicon liquid octyltriethoxysilane and alkali (Patent No. 2545228, publ. 03/27/2015), in the following ratio,%:

- soil - 100,

- Portland cement - 6-10 (in excess of 100%),

- octyltriethoxysilane - 0.01-0.3 (in excess of 100%),

- alkali - 0.1-0.7 (in excess of 100%),

- water - 7.5-11.95 (in excess of 100%).

The disadvantage of this mixture is its low frost resistance (F15) and strength (M40), increased consumption of additives, and the use of alkali (sodium hydroxide), which is dangerous for the human body, which leads to difficulties in the technology of work.

It is known the use of plasticizing additives in conjunction with water repellents (Kastorny LI. Additives in concrete and mortar. Reference book, 2nd edition. Rostov-on-Don: Phoenix, 2007, S. 133-143), which provides strength and frost resistance of building material. However, their effect on concrete and mortar is known, the properties and composition of which are standardized by GOST 10180, GOST 26633, GOST 5802. The basis for the action of such additives in concrete and mortar is the principle of regulating the structure and properties of cement paste and cement stone. Materials based on soil, sand and crushed-sand mixtures treated (cemented) with cement are standardized and selected in accordance with GOST 23558 and are materials with properties and structure different from concrete and mortar. The introduction of plasticizing, water-repellent additives and their complex in such mixtures does not lead to a significant change in workability and water content, but is primarily aimed at changing the properties of clay particles present in soil, sand, gravel and sand mixtures that reduce physical -mechanical properties and durability of the materials obtained. Basically, they try to use those materials that are unsuitable for concrete, asphalt concrete or base materials and pavement coatings, as well as clay and dust particles in large quantities, as aggregates for soil, sand and gravel and sand mixtures.

The objective of the invention is to increase the frost resistance and strength of materials from soil, sand and gravel and sand mixtures, as well as the economic efficiency of construction.

The result is achieved in that the composition for road construction contains a mineral binder, aggregate, water and chemical additives, according to the invention contains, as chemical additives, octyltriethoxysilane / octyltriethoxysilane emulsion and an aqueous solution of a copolymer based on polyoxyethylene derivatives of unsaturated carboxylic acids / carboxylate polyester, in the following ratio of components mass. %:

- Portland cement - 6-12,

- placeholder - 72-88,

- octyltriethoxysilane / emulsion of octyltriethoxysilane - 0.005-0.04,

- an aqueous solution of a copolymer based on polyoxyethylene derivatives of unsaturated carboxylic acids / carboxylate polyester - 0.02-0.20,

- water - 4.83-17.94.

Characteristics of the starting materials:

1) Mineral binder - Portland cement 400-D0 GOST 10178-85.

2) Chemical additives - octyltriethoxysilane / octyltriethoxysilane emulsion, an aqueous solution of a copolymer based on polyoxyethylene derivatives of unsaturated carboxylic acids / carboxylate polyester.

3) Aggregate (clay soil, sand, crushed stone and sand mixture) according to GOST 23558-94.

4) Water according to GOST 23732-79.

Preparation and test procedure for samples of the proposed composition for road construction.

The composition for road construction was prepared and tested as follows.

The aggregate was dried to an air-dry state. Then they made a binder - Portland cement, the mixture was mixed. The resulting mixture was moistened to optimal humidity with the simultaneous introduction of chemical additives. Then the mixture was thoroughly mixed in a laboratory paddle mixer for 4-6 minutes. From the obtained mixtures, 12 sample cubes 10 × 10 × 10 in size, 6 prism samples 10 × 10 × 40 in size were made. The fabricated samples were placed in a normal curing chamber and stored in this manner for 28 days for testing on them in order to determine the physicomechanical properties of fortified soils.

Before the tests, the samples were saturated with water at a temperature of + 18 ± 2 ° С for 48 hours. First, the samples were filled with water at 1/3 of the height, and after 6 hours they were completely and kept for 42 hours. The ultimate compressive and tensile strengths were determined when the sample was split. hydraulic presses. The samples were also tested for frost resistance after hardening for 28 days and water saturation for 48 hours. Each freeze-thaw cycle consisted of the following operations: first, the samples were frozen in the freezer for 2.5 hours at a temperature of -18 ± 2 ° С , then the samples were immersed in water for 2 ± 0.5 hours at a temperature of + 18 ± 2 ° C. After a specified number of freeze-thaw cycles were carried out on thawed samples, the compressive strength was determined.

Example

Table 1 shows the achieved grades in strength and frost resistance with the introduction of chemical additives octyltriethoxysilane / octyltriethoxysilane emulsion (Additive 1) and an aqueous solution of a copolymer based on polyoxyethylene derivatives of unsaturated carboxylic acids / carboxylate polyester (Additive 2).

The increase in economic efficiency is due to the high frost resistance (durability) of the material, and consequently, increased turnaround times and the service life of pavement.

Claims (1)

The composition for road construction contains a mineral binder, aggregate, water and chemical additives, characterized in that it contains octyltriethoxysilane / octyltriethoxysilane emulsion and an aqueous solution of a copolymer based on polyoxyethylene derivatives of unsaturated carboxylic acids / carboxylate polyester, wt.%:
- Portland cement - 6-12,
- placeholder - 72-88,
- octyltriethoxysilane / emulsion of octyltriethoxysilane - 0.005-0.04,
- an aqueous solution of a copolymer based on polyoxyethylene derivatives of unsaturated carboxylic acids / carboxylate polyester - 0.02-0.20,
- water - 4.83-17.94.