RU2545231C1 - Peat-polymer mixture for production of fire-resistant building blocks - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: peat-polymer mixture for production of fire-resistant building blocks, comprising substrate in the form of peat and a binder, consists of the following components, wt %: peat nanomodified with suspension of polyvinyl acetate and cyclone dust of gas purification of air of industrial enterprises (based on the following: dry polyvinyl acetate in the amount of 4% by weight of peat and dust - 2%), - 25%, Portland cement CEM-II-42.5 - 35%, sodium bicarbonate - 7.5%, calcium chloride - 7.5%, diammonium phosphate - 5%, and water - 20%.

EFFECT: improvement of fire-proof and strength characteristics at a constant density, reduced thermal conductivity, increase in homogeneity of the structure and durability of the insulating material.

1 tbl

Description

The invention relates to compositions of raw mixes on a cement basis, used for the production of heat-insulating building materials, characterized by increased fire resistance.

Currently, raw material mixtures for the production of heat-insulating materials (wall blocks), including in addition to Portland cement, expanded polystyrene, or expanded clay, or slag, have become widespread.

The closest in technical essence to the achieved result to the proposed mixture and selected as a prototype is a peat-polymer mixture for the manufacture of fire-resistant building blocks, including a peat base and a connecting element (see patent RU 2393128, publ. 20.07.2009).

However, the raw material mixture of the prototype has significant disadvantages. Such a mixture has an inhomogeneous structure due to the inhomogeneous composition of the coarse aggregate, which leads to heterogeneity of the properties of the material itself, an increase in the number of structural defects and, as a result, to a decrease in operational and technical characteristics.

The technical result is to obtain increased fire-resistant and strength characteristics at a constant density, reducing heat conductivity, increasing the uniformity of the structure and durability of the insulating material.

The technical result is achieved in that in a peat-polymer mixture for the manufacture of fire-resistant building blocks, which includes a base in the form of peat (mainly lowland) and a connecting element, consists of the following components, wt. %: peat, nanomodified with a suspension of polyvinyl acetate and cyclone dust of gas gas purification of an enterprise producing Portland cement (based on: dry polyvinyl acetate in an amount of 4% by weight of peat and dust -2%), - 25%, Portland cement CEM-II-42.5 - 35 %, sodium bicarbonate - 7.5%, calcium chloride - 7.5%, diammonium phosphate - 5% and water - 20%. The experiments were carried out on the example of cyclone gas treatment dust of Nevyansky Cementnik OJSC, containing in its composition, masses. %: SiO ₂ - 12-13, Al ₂ O ₃ - up to 3, Fe ₂ O ₃ - up to 3, CaO - 40-45%.

Types of peat in the composition of the peat-polymer mixture can be almost any, either individually or mixtures thereof. But the most effective type of peat to achieve the specified technical result is lowland peat due to its greatest density and fire resistance.

Nanomodification of peat with polyvinyl acetate and cyclone dust of gas purification of industrial air is necessary to create a high-strength material structure and increase the strength of the border zone of adhesion of peat and cement stone. The production of peat concrete is possible almost anywhere in the country due to the wide distribution of natural peat.

Peat nano-modification should occur before mixing with cement and water in forced-action mixing plants. The direct preparation of the peat-polymer mixture can take place in the same plants. Future heat-insulating building materials are formed from a freshly prepared mixture: blocks, plates, etc.

The proposed invention was developed in the interests of the Ministry of Emergencies of Russia with the aim of increasing the fire resistance of building structures in crowded places and is aimed at reducing the fire hazard of peat insulating concrete due to doping of peat with nanoparticles that impede the interaction of carbon compounds of peat with oxygen.

The addition of sodium bicarbonate enhances the fire resistance of the resulting building structures due to its insulating and inhibitory functions.

Calcium chloride significantly accelerates the hydration of cement, which reduces the initial and final time of setting and shrinkage, while at the same time increasing its anticipatory strength, surface wear and resistance to cold weather. The use of calcium chloride allows you to increase productivity in the manufacture of building structures by 2.5-3 times by reducing the time of solidification of cement and improving the quality of manufactured products. The addition of calcium chloride helps to obtain building structures with a sufficiently high strength and frost resistance.

Building structures, which include diammonium phosphate, have enhanced fire retardant properties.

Claims (1)

 Peat-polymer mixture for the manufacture of fire-resistant building blocks, including a base in the form of peat and a connecting element, characterized in that it consists of the following components, wt. %: peat, nanomodified with a suspension of polyvinyl acetate and cyclone dust from gas purification of air of industrial enterprises producing Portland cement (based on: dry polyvinyl acetate in the amount of 4% by weight of peat and dust - 2%), - 25%, Portland cement CEM-II-42.5 - 35%, sodium bicarbonate - 7.5%, calcium chloride - 7.5%, diammonium phosphate - 5% and water - 20%.