RU2760962C1 - Multifunctional composition based on thermoplastic waste of the fuel and energy complex and the method for its preparation - Google Patents

Abstract

FIELD: material engineering.

SUBSTANCE: invention relates to impregnating compounds used in construction as corrosion protection agents. A multifunctional composition based on thermoplastic waste of a fuel and energy complex of increased durability is proposed, containing technical sulfur and organic solvent in a mass ratio of 1:2, kaolin in an amount of 8 to 10% of the mass of technical sulfur and a chemical additive of an amine-based hardener in an amount of 0.01% of the mass of organic solvent, while technical sulfur has a density of at least 1.3 g/cm³ with a mass fraction of sulfur from 99.1 to 99.8% in its chemical composition, the mass fraction of iron oxide in the chemical composition of kaolin is from 1 to 1.8%, the hardener is an amine aqueous solution with an active substance weight of 90% and a water content of 8 to 10%, and the organic solvent is ethylene glycol. A method for preparing a multifunctional composition is also proposed.

EFFECT: increase in the durability of concrete and reinforced concrete products, an increase in corrosion resistance, a reduction in coating consumption while maintaining a high degree of protection against corrosion, electromagnetic and ionizing radiation.

2 cl, 2 dwg, 1 tbl, 1 ex

Description

The invention relates to impregnating compositions used in construction as a means of corrosion protection and imparting improved physical and technical characteristics to structures impregnated with the composition on a mineral basis. According to the method of preparation, the composition can be attributed to the technology of obtaining nanomaterials intended to increase the corrosion resistance and protect products from sulfate corrosion, exposure to moisture, technogenic electromagnetic and ionizing radiation.

A number of materials are known from the prior art that are used to protect mineral composites from sulfate corrosion, exposure to moisture, man-made electromagnetic and ionizing radiation. In particular, a composition for processing building materials and a method for their processing is known (RU 2416589C1, IPC С04В 41/45, publ. 20.04.2011), containing as the main component highly dispersed sulfur obtained by decomposition of sodium thiosulfate. The composition is obtained by oxidation with a solution of calcium polysulfide with a concentration of 10-20% at room temperature in the presence of a 10-20% solution of hydrochloric acid. In the production of the proposed composition, the final form of sulfur from an oil refinery is used, which is a less costly method and has a high economic effect.

The disadvantage of the known composition and method of its production is a complex technology for obtaining highly dispersed sulfur, while the known composition does not significantly increase the durability of concrete and reinforced concrete products processed with it.

The closest to the claimed invention and selected as a prototype are the composition of the waterproofing coating based on polymer sulfur and the method for its production (RU 2562636 C2, IPC С04В 41/45 publ. 09/10/2015). The waterproofing coating is obtained by heating polymer sulfur, drying and heating products, placing them in an impregnating bath, impregnating and unloading products, while drying and heating products is carried out at a temperature of 120 ÷ 125 ° C for 1 ÷ 5 minutes in a vacuum, and the impregnation is carried out at a temperature of 130-140 ° C for 0.5-10 minutes, after which the impregnation is repeated.

The disadvantage of this method is the dependence of the depth of impregnation on the viscosity of the sulfur melt and atmospheric pressure, the need to comply with stringent technological conditions and the complexity of the technical equipment, which limits the possibility of mass application of the method in the production of structures of significant dimensions and complex configuration.

The technical problem to be solved by the claimed invention is to increase the durability of concrete and reinforced concrete products, increase corrosion resistance, reduce coating consumption while maintaining a high degree of protection against corrosion, electromagnetic and ionizing radiation.

This problem is solved by the fact that a multifunctional composition based on thermoplastic waste of a fuel and energy complex of increased durability contains technical sulfur and an organic solvent in a ratio of 1: 2, as well as kaolin from 8% to 10% of the mass of technical sulfur and a chemical additive of a hardener based on amines 0.01% by weight of ethylene glycol. The composition differs from known analogs in that technical sulfur has a density of at least 1.3 g / cm ³ with a mass fraction of sulfur from 99.1% to 99.8% in its chemical composition. In this case, the mass fraction of iron oxide in the chemical composition of kaolin is from 1% to 1.8%, and the hardener is an amine aqueous solution with an active substance mass of 90% and a water content of 8 to 10%. It is advisable to use fine sulfur in the composition, and use ethylene glycol as an organic solvent.

The method for preparing a multifunctional composition includes loading into a container with a volume twice the volume of the produced composition, kaolin, a hardener and an organic solvent, such as ethylene glycol, then technical sulfur is loaded into the container, observing the ratio of sulfur and organic solvent 1: 2, after which the composition is dispersed at 1800 rpm, for 90 minutes until a mixture of lemon color and uniform consistency is obtained, then a hardener is added to the resulting composition in a ratio of 0.01% by weight of ethylene glycol and kaolin as a filler in an amount of 10% by weight of technical sulfur, after which the composition is further dispersed for 30 minutes. The method for preparing a multifunctional composition based on thermoplastic waste can be carried out in two stages, the first stage consists in dispersing the base composition, which includes technical sulfur and ethylene glycol, and the second step consists in finalizing the base composition by introducing a filler, which is used as kaolin, and amine component with additional dispersion.

The positive technical result provided by the above set of features of the group of inventions is as follows: when the composition is applied to the surface of a product on a mineral basis, ionizing and electromagnetic radiation is reduced by 60 ÷ 80%, an increase in the corrosion resistance of products during operation in alkaline and acidic environments by 70 %, in comparison with control products without applied composition, the bending and compressive strength of products increases up to 40%.

The invention is illustrated by drawings, where Fig. 1 shows a differential thermal analysis of the impregnating composition in the structure of concrete; in fig. 2. shows the microstructure of the modified cement stone.

Below is one of the possible formulations of the composition and the method of its preparation is disclosed.

Example. The multifunctional composition based on thermoplastic waste of the fuel and energy complex includes industrial sulfur and organic solvent in a ratio of 1: 2, as well as kaolin in a ratio of 8% by weight of technical sulfur and a chemical additive of a hardener based on amines 0.01% by weight of ethylene glycol. Industrial sulfur has a density of 1.3 g / cm ³ with a mass fraction of sulfur of 99.8% in its chemical composition, while the mass fraction of iron oxide in the chemical composition of kaolin is 1%, and the hardener is an amine aqueous solution with an active substance mass of 90 % and a water content of 10%. The composition should contain particles with a diameter of less than 5 microns in the range of 30 ÷ 35% and a diameter of less than 20 microns 60 ÷ 65%).

A method of manufacturing a composition based on thermoplastic waste of a fuel and energy complex includes loading sulfur and a solvent into a container, the volume of the container should be twice the volumetric yield of the product. Dispersion is carried out in a hermetically sealed container at a speed of 1800 rpm with a cutter for 90 minutes. Industrial sulfur and an organic solvent are introduced into the composition at the first stage of dispersion in a ratio of 1: 2, after which the composition is dispersed for 90 minutes, then at the second stage an amine hardener is added to the resulting composition, kaolin is introduced as a filler, after which the composition is further dispersed within 30 minutes.

Due to the use of technical sulfur in the specified ratio and under the specified dispersion conditions, an additional reduction in the consumption of the composition when applied to products is achieved up to 200 grams per 1 m ² at a low Brookfield viscosity, spindle 5, V = 20-158 cP. Also, the composition obtained by the method provides a depth of penetration into the mineral matrix from 10 to 13 mm, while the effect of protection against ionizing radiation, expressed in accordance with SanPiN 2.6.1.11920S.2.6.1, is enhanced. in reducing the equivalent thickness of the material in mm at the stress on the X-ray tube (kV). A decrease in the permeability of electromagnetic fields (EMF) is also achieved, in accordance with calculations according to SanPiN 2.1.8 / 2.2.4.1383-03 to the range from 30 to 300 kHz. In addition, a consistently high corrosion resistance to alkaline and acidic environments is ensured.

A multifunctional composition based on thermoplastic waste of the fuel and energy complex is used as a coating as follows.

The composition is applied to the mineral surface with a roller or brush on a dry cleaned surface at an outside air temperature of at least -5 ° C. When working, you must use protective goggles and a respirator. In case of contact with eyes and mucous membranes, rinse the affected areas with plenty of water. Compositional coating test results are shown below (Table 1).

Technological indicators of the developed composition based on thermoplastic waste and methods of their determination correspond to GOST 32017-2012 “Materials and systems for the protection and repair of concrete structures. Requirements for concrete protection systems during repairs ", GOST 33290-2015" Paints and varnishes used in construction. General technical conditions ", GOST 24211-2008" Additives for concrete and mortars ".

Claims (2)

1. Multifunctional composition based on thermoplastic waste of the fuel and energy complex of increased durability, containing industrial sulfur and organic solvent in a mass ratio of 1: 2, kaolin in an amount from 8 to 10% by weight of technical sulfur and a chemical additive of a hardener based on amines in an amount of 0 , 01% of the mass of the organic solvent, while the technical sulfur has a density of at least 1.3 g / cm ³ with a mass fraction of sulfur from 99.1 to 99.8% in its chemical composition, the mass fraction of iron oxide in the chemical composition of kaolin is from 1 to 1.8%, the curing agent is an amine aqueous solution with an active substance mass of 90% and a water content of 8 to 10%, and the organic solvent is ethylene glycol. 2. A method of preparing a multifunctional composition according to claim 1, including loading into a container with a volume twice the volume of the produced composition, technical sulfur and an organic solvent, observing the mass ratio of sulfur and organic solvent 1: 2, after which the composition is dispersed at 1800 rpm for 90 minutes until a mixture of lemon color and a uniform consistency is obtained, then a hardener is added to the resulting composition in a ratio of 0.01% by weight of the organic solvent and kaolin in an amount of 8 to 10% by weight of technical sulfur, after which the composition additionally dispersed for 30 minutes, where ethylene glycol is used as an organic solvent.

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