RU84407U1 - SULFUR CONCRETE CONSTRUCTION - Google Patents

Abstract

A building structure for the manufacture of prefabricated and monolithic building products, containing a monolithic body made of sulfur concrete, in which an inorganic finely divided filler, aggregate and modifying additive are used, characterized in that its concrete contains ashes of thermal power plants, as a modifying additive - dicyclopentadiene, and the aggregate are basalt screenings and sand in the following proportions, wt.%:! Basalt screenings 30.0-45.0 Sand 24.0-35.0 Ash TPP (captured) 9.0-18.0 Sulfur technical 13.994-27.988 Dicyclopentadiene 0.006-0.012

Description

The utility model relates to building structures created on the basis of building concrete and solutions containing sulfur. Mostly such structures include foundations and foundations, as well as concrete products obtained by pouring concrete mixture into molds, formwork.

A known composition for the manufacture of building products [1]. This patent describes an example of a structure created on the basis of a concrete composition including sulfur, an additive, a filler and a filler, characterized in that it contains lead shot with a particle diameter of 3-4 mm as a concrete filler, and paraffin with the following ratio of components, wt.%: sulfur 7.55-9.5; paraffin 0.45-0.5; filler - a waste product of the production of optical glass with a specific surface area of 2000-2200 cm ² / g 14-17; aggregate - lead shot with a particle diameter of 3-4 mm - the rest. Products have an average density of 6690-7230 kg / m ³ , water absorption in 24 hours - 0.15-0.18%. The technical result is an increase in average density and a decrease in water absorption of the material. The material is mainly used in structures for protection against ionizing radiation.

Its disadvantage is the high cost of materials

Known building structure, the basis of which is concrete for protection against ionizing radiation [2], including an astringent, finely ground additive, coarse and fine aggregate, and a modifying additive, characterized in that it contains soot as a finely ground additive, as fine and coarse aggregates crushed coal with a particle diameter of 0.315-0.63 mm and 5-10 mm, respectively, as a modifying additive, kerosene in the following ratio of components, wt.%: sulfur 28.7-33.2, carbon black 3.4-5 , 2, sand from coal with a diameter ohm particles 0,315-0,63 19,3-22,8 mm, rubble from coal particle diameter of 5-10 mm 38,1-48,2, kerosene 0,4-0.7.

The disadvantage of the design is that its concrete mix contains coal, which can be used as fuel. Using it as a placeholder is irrational.

Known concrete mixture [3]. The invention relates to building materials, and in particular to concrete mixtures, subjected to heat treatment during the hardening process, and can be used in the manufacture of reinforced concrete structures. The technical result is an increase in the strength and durability of the concrete mixture. The concrete mixture, including Portland cement, sand, gravel, water, C-3 superplasticizer, silica, alumina, iron oxide, calcium oxide, magnesium oxide, sodium oxide, potassium oxide, carbon and sulfur, additionally contains manganese oxide and chromium oxide when the following component ratios, wt% Portland cement 10.26-15.71, crushed stone 53.66-56.59, sand 22.32-25.89, superplasticizer C-3 0.05-0.16, silica 0.42 -1.4, potassium oxide 0.02-0.022, iron oxide 0.013-0.04, carbon 0.013-0.04, magnesium oxide 0.005-0.017, alumina 0.003-0.01, calcium oxide 0.003-0.01, sodium oxide 0.003-0.009, sulfur 0.0012-0.004, manganese oxide 0.0018-0.0058, chromium oxide 0.0001-0.0003, water - the rest.

The disadvantage of structures from this mixture is that, despite the high strength properties of concrete obtained from it, their tensile strength is small. The material of the structure is quite fragile.

Closest to the claimed building structure in terms of the composition of the building material is a building structure created on the basis of a mixture for the manufacture of building structures and products based on sulfur [4], including (wt.%): Sulfur 13-18; slag crushed stone 46.5-51.3; slag sand 23.5-24.2; glandular cakes 10.7-11.6; oil bitumen 0.2-0.7; iodine 0.1-02.

The disadvantages of this design, based on the said mixture, include the fact that petroleum bitumen and iodine are used as modifying additives in a wide range. This creates a spread and instability of the strength properties of the final product - the building structure due to the uncertainty of their interaction with sulfur. In addition, the filler used (ferruginous cake) is a technological raw material, and slag crushed stone and sand are waste products of metallurgical production and their use is limited to certain regions where there is metallurgical production.

Nevertheless, the latter solution, in its technical essence, is the closest to the proposed one and can serve as a prototype for it.

The task posed by the authors of the utility model is to create a building structure based on new and cheap building material with high physical and mechanical properties. The problem is solved as follows

A building structure for the manufacture of prefabricated and monolithic building products, containing a monolithic body made of sulfur concrete, in which an inorganic finely divided filler, aggregate and modifying additive are used, characterized in that its concrete contains ashes of thermal power station, modifying additives - dicyclopentadiene, and aggregate are basalt screenings and sand in the following proportions, wt.%:

Basalt Screenings 45.0-30.0 Sand 32.0-24.0 Ash TPP (captured) 9.0-18.0 Sulfur technical 13,994-27,988 Dicyclopentadiene 0.006-0.012

In this case, technical sulfur (lump or gas) is used that meets the requirements of GOST 127-76 ..

The material of construction - sulfur concrete is obtained by mixing the above ingredients with heating. Then it is poured into the prepared forms and hardening, forms the elements of the claimed design.

The structure obtained on the basis of the mentioned sulfur concrete has high strength, low water absorption, high frost, weather and chemical resistance to most mineral acids and petroleum products, low thermal conductivity. This substance is suitable for the manufacture of both prefabricated and monolithic structures used for operation. in aggressive environments, for the construction of roads and the manufacture of corrosion-resistant building structures and products for industrial and civil purposes, as well as tions to which increased operational requirements are imposed.

From sulfur concrete it is possible to produce: reinforced concrete piles, foundation blocks, railway sleepers, road and paving slabs, curbs, weights for gas and oil pipelines, sewer and water wells, hatches of heating mains; monolithic foundations; coverage of roads and sites; hydraulic structures, including facing plates of irrigation canals and structures; underground storage facilities for the disposal of aggressive agents, including radioactive ones, to shore up and much more. The low cost of the product is achieved by the use of cheap materials, namely: the collected ash from the TPP, which is a waste product, is used as a filler, and basalt screenings (crushed stone) and sand are used as a filler. High physical and mechanical properties are achieved through the use of sulfur as an astringent, and dicyclopentadiene in a certain ratio to it as a modifying additive.

According to physical and mechanical indicators, building structures from this sulfur concrete comply with the following standards:

Strength, MPa:

on compression fifty, to bend 9.0 tensile 5.0, Water absorption,% (no more) 0.05 Air voids,% (within) 4-8, Chemical resistance in water with acidity pH = 3, Specific gravity, kg / m ³ . 2350-2700

According to its strength properties, the structure containing the aforementioned sulfur concrete meets all the requirements for ordinary concrete, and in some cases, for example, in aggressive environments, its use is more preferable.

Sulfur concrete is recommended for structures experiencing alternating loads.

List of used information sources

1. Application No. 99103937/04, Russia, Composition for the manufacture of building products,

2. Application No. 2002110088/03, Russia, Concrete for protection against ionizing radiation,

3. Patent No. 2 223 242, application No. 2002118359/03, Russia, Concrete mixture,

4. Patent No. 2167120, Russia, Concrete mixture (prototype).

Claims (1)

A building structure for the manufacture of prefabricated and monolithic building products, containing a monolithic body made of sulfur concrete, in which an inorganic finely divided filler, aggregate and modifying additive are used, characterized in that its concrete contains ashes of thermal power plants, as a modifying additive - dicyclopentadiene, and the aggregate are basalt screenings and sand in the following proportions, wt.%: Basalt Screenings 30.0-45.0 Sand 24.0-35.0 Ash TPP (captured) 9.0-18.0 Sulfur technical 13,994-27,988 Dicyclopentadiene 0.006-0.012