LT6407B - Extraordinary load resistant concrete laying by asphalt paver - Google Patents

Abstract

This invention relates to the field of construction materials, precisely concrete compositions used for facing of roads and other traffic areas. The increased requirements have been rising for the environmental resistance and durability of the compositions.@The aim of the invention is to create a concrete pavement composition with good mechanical and running characterization, durability, resistance to environmental impact and low cost.@Concrete paving composition comprising a mixture of mineral materials consisting of fractionated crushed stone, sand, mineral powder, as well as cement and water, further comprising a plasticizer for concrete, and crushed stone is granite chippings fractions of 5-16 mm and 5-8 mm in size, when the ratio of components expressed % by weight is:@granite chippings fractions of 5-16 mm - 21-24@granite chippings fractions of 5-8 mm - 20-23@sand - 31-34@mineral powder - 3.5-6.0@cement - 13.0-15.0@plasticizer for concrete - 0.04-0.08 and@water - 5.0-6.0.

Description

BACKGROUND OF THE INVENTION The present invention relates to the field of building materials, and more particularly to concrete compositions for use on road and other traffic areas, which have increased environmental and durability requirements.

There is a known concrete pavement composition comprising a mixture of minerals from fractionated gravel and sand, as well as cement and water. It also contains superplasticizer, citric acid, soda ash and anhydrite. The weight percent of the composition is: grit 49.9, sand 32.3, water 5.1, cement 11.9, superplasticizer 0.1, citric acid 0.02, calcined soda 0.02 and anhydrite 0.6. (see US4892586A, Pub. 1990-01-09). This composition has a measured compressive strength of 84 MPa after 28 days and does not exhibit sufficient environmental resistance.

There is a known concrete pavement composition which includes a mixture of minerals from fractionated gravel, sand, ash, as well as cement and water. Also includes plasticizer and polypropylene monofilament. The weight percent of the composition is: gravel 52.4, sand 28.6, water 4.4, cement 8.9, ash 5.6, plastic 0.1, polypropylene monofilament 0.04 (see . CN100999888A, Pub. 2007-07-18). The pavement of this composition does not exhibit sufficient environmental resistance.

Also known is a concrete pavement composition comprising a mixture of mineral materials from fractional rubble, sand and mineral powder, as well as cement and water, where the fractional rubble is pebble and the mineral powder is coal powder. The composition by weight is: pebble 50.2, sand 33.5, water 4.7, cement 11.1, coal waste powder 0.6 (see Saeid Hasami, Amir Modarres, Mostafa Soltaninejad, Hesam Madani .Mechanical Properties of Roller Compact Concrete Pavement Containing Coal Waste and Limestone Powders as Partial Replacements of Cement Construction and Building Materials 111, 2016: 629). The analogue is not sufficiently strong and resistant to environmental influences.

The closest is a concrete pavement composition comprising a mixture of minerals from fractional rubble, sand, gravel and mineral powder, as well as cement and water. Fractionated chippings are basalt 8-16 mm fraction, gravel fraction 2-8 mm and mineral powder is ash. The weight% of the known composition is: basalt 20.6, sand 27.4, gravel 30.1, ash 5.6, water 5.4, cement 10.9 (Walzbeton fur Tragschichten und Tragdeckschichten. Zement Markblatt St ^ enbau, § 6, 9. 2001: 3).

The prototype has insufficient mechanical and performance properties, durability, and environmental resistance, since the cement content of the composition is relatively small, which results in insufficient bonding of the composition elements and strength of the composition. In addition, the gravel contained in the composition is particularly water absorbent, making the composition resistant to the effects of frost. In addition, this composition is made from a brought-in material - basalt chippings, and is therefore relatively expensive.

The object of the invention is to provide a concrete pavement composition having good mechanical and performance characteristics, durability, environmental resistance and low cost.

This object is achieved by the addition of concrete plastic to the concrete pavement composition comprising a mixture of aggregates from fractional chippings, sand and mineral powders, as well as cement and water, with a fractional chips of 5-16 mm and 5-8 mm. Granite crushed stone fractions with a weight / weight ratio:

5-16 mm granite chipping fraction - 21-24;

5-8 mm granite chipping fraction - 20-23;

sand - 31-34;

mineral powder - 3.5-6.0;

cement - 13.0-15.0;

concrete plasticizer - 0.04-0.08;

water - 5.0-6.0.

The object is also achieved by the fact that said mixture of minerals has a granulometric composition by weight:

90.0-100.0 through a 16.0 mm sieve; 65.0-80.0 through a 8.0 mm sieve; passing through a 4.0 mm sieve-40.0-65.0;

25.0-50.0 through a 2.0 mm sieve; 20.0-40.0 through a 1.0 mm sieve; 11.0 to 26.0 through a 0.5 mm sieve; 5.0 through 15.0 through a 0.25 mm sieve; will pass through a 0.05 mm sieve - 3.0-10.0.

It is also an object of the invention that the plasticizer of the concrete contains a porous additive.

The object is also achieved by the fact that the mineral powder is optionally ash or granite powder.

It is also achieved that the particles of mineral powder do not exceed 0.063 mm and the sand is composed of particles not exceeding 4 mm.

The composition of the present invention uses granite chippings, which absorbs little water, so that the composition is sufficiently cold-resistant. In addition, optimum levels of composite components, including a correspondingly higher proportion of cement, allow good performance. In addition, the composition of the invention has a relatively low cost due to the use of local granite crushed raw material and other local materials.

The granulometric composition limits of the concrete pavement composition are illustrated in Fig. 1, which shows the dependence (%) of the mineral material spillage through the sieve on the mesh size (mm).

Optimal amounts of components included in the concrete pavement composition have been determined by experimental studies.

The concrete pavement composition of the invention is illustrated by examples.

an example of a concrete pavement composition

The concrete pavement composition comprises a mixture of minerals consisting of 5-16 mm and 5 to 8 mm granite chips, as well as sand with a particle size of up to 4 mm and mineral powder with an ash content of 0.063 mm. Also, the concrete pavement composition includes cement e.g. CEM I 42.5 N, water and concrete plastic eg. VIBROPOR P, which includes a porous accessory.

The composition of the concrete pavement composition by weight is as follows:

5-16 mm granite chipping fraction - 22.5;

5-8 mm granite chipping fraction - 22.65;

sand - 31.2;

ash - 3.8;

cement - 14.2;

concrete plasticizer - 0.05;

water - 5.6.

an example of a concrete pavement composition

The concrete pavement composition includes a mixture of minerals consisting of 5-16 mm and granules of 5-8 mm granite, including sand with a particle size not exceeding 4 mm and mineral powder with a granite powder content not exceeding 0.063 mm. the concrete pavement composition includes cement e.g. CEM I 42.5 N, water and concrete plastic eg. VIBROPOR P, which includes a porous accessory.

The composition of the concrete pavement composition by weight is as follows:

5-16 mm granite chipping fraction - 23.5; 5-8 mm granite chipping fraction - 20.64; sand - 32.4;

granite flour - 3.5;

cement - 14.5;

concrete plasticizer - 0.06;

water - 5.4.

The physical and mechanical properties of the concrete pavement composition are shown in the following tables: Table 1 - 1 concrete pavement composition example, Table 2 - 2 concrete pavement composition example, and testing standards are given in Table 3.

table

Feature Set value Density of concrete, Mg / m ³ 2,450 Compressive strength after 7 days, MPa 34.7 Tensile strength after 7 days, MPa 3.8 Compressive strength after 28 days, MPa 39.8 Tensile strength at 28 days, MPa 4.4

table

Feature Fixed value Density of concrete, Mg / m ³ 2,422 Compressive strength after 7 days, MPa 33.2 Tensile strength after 7 days, MPa 3.5 Compressive strength after 28 days, MPa 38.0 Tensile strength at 28 days, MPa 4.1

table

The test Standard Density of concrete BS EN 12690-7 Compressive strength after 7 days BS EN 12690-3 Tensile strength after cleavage after 7 days BS EN 12690-6 Compressive strength after 28 days, MPa BS EN 12690-3 Tensile strength after cleavage after 28 days BS EN 12690-6

The concrete pavement of the concrete pavement composition of the present invention is prepared as follows: said components are mixed in a conventional concrete plant, and the resulting composition can be transported to a site by dump truck. The concrete pavement of the said composition is laid with a conventional asphalt paver and compacted by conventional roller compactors. The method of installing the road surface is fast and requires no additional equipment. This results in a dense, mechanical and environmental resistant permanent structure.

The developed concrete road surface has good mechanical and performance characteristics, durability and environmental resistance.

The present invention can be applied to the installation of concrete pavement on streets, highways, airport platforms and aircraft parking areas, seaport berths and terminals, logistics terminals, various cargo storage areas / terminals and other traffic areas.

Claims (6)

DEFINITION OF INVENTION 1. A concrete pavement composition comprising a mixture of aggregates from fractional chippings, sand and mineral powders, as well as cement and water, characterized in that it further comprises concrete plastics and the fractionated chippings are granite chips of 516 mm and 5 to 8 mm fractions. where the ratio by weight of components is: 5-16 mm granite chipping fraction - 21-24; 5-8 mm granite chipping fraction - 20-23; sand 31-34; mineral powder - 3.5-6.0: cement - 13.0-15.0; concrete plasticizer - 0.04-0.08; water - 5.0-6.0. 2. A concrete pavement composition according to claim 1, characterized in that said mixture of minerals has a granulometric composition by weight: 90.0-100.0 through a 16.0 mm sieve; passing through a 8.0 mm sieve-65.0-80.0; 40.0-65.0 through a 4.0 mm sieve; 25.0-50.0 through a 2.0 mm sieve; 20.0-40.0 through a 1.0 mm sieve; 11.0 to 26.0 through a 0.5 mm sieve; 5.0 through 15.0 through a 0.25 mm sieve; will pass through a 0.05 mm sieve - 3.0-10.0. 3. A concrete pavement composition according to claim 1, characterized in that the concrete plastic comprises a porous additive. 4. Concrete paving composition according to claim 1, characterized in that the mineral powder is optionally ash or granite powder. Concrete pavement composition according to claims 1 and 4, characterized in that the mineral powder particles do not exceed 0.063 mm. 6. A concrete pavement composition according to claim 1, characterized in that the sand is composed of particles not exceeding 4 mm.