RU2547534C2 - Opal rock-based composite material - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to production of construction materials and can be used in producing heat insulation, structural-heat insulation and structural concrete for residential and civil construction. A composite material, obtained from a mixture including sodium silicofluoride, wood processing wastes, a suspension obtained by mixing ground tripoli from the Sukholozhsky deposit of Sverdlovsk region, 40% sodium hydroxide solution and water in weight ratio of 1:1.34:3.10, respectively, and holding for four hours at 95°C, followed by cooling, with the following ratio of components, wt %: said suspension 47-53, sodium silicofluoride 5-7, wood processing wastes 42-46.

EFFECT: cheap production of the material.

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Description

The invention relates to the production of building materials and can be used for the manufacture of heat-insulating, structural-heat-insulating and structural concrete for housing and civil engineering.

The closest in technical essence and purpose to the proposed invention is arbolite (Nanazashvili I.Kh. Arbolit is an effective building material. M., Stroyizdat, 1984, 90 pp .; Bazhenov Yu.M. Concrete technology. M., 2004), including Portland cement, quartz sand and wood waste.

When creating the invention, the problem was solved of reducing the cost of the material through the use of liquid glass as a binder solution obtained by hydrothermal treatment of opal rocks with a solution of caustic soda at atmospheric pressure and a temperature of 95 ° C.

The aim of the invention is to reduce the cost of production of wall material.

For this, the suspension obtained by hydrothermal leaching of tripoli from the Sukholozhsky deposit of the Sverdlovsk region with an alkali solution at 95 ° C is used as a binder. At the same time, energy-intensive operations are excluded - the production of a silicate block and its autoclave dissolution, which are characteristic for the production of liquid glass by the traditional dry method. During hydrothermal leaching of tripoli, liquid glass and insoluble clay impurities accompanying the opal rock are formed.

Tripoli Sukholozhsky deposits of the Sverdlovsk region with an amorphous SiO ₂ content _of 61.0 wt. % has the following chemical composition, wt. %: SiO _{2 total} 76.76; CaO 0.70; Al ₂ O ₃ 7.74; MgO 1.17; Fe ₂ O ₃ 4.75; FeO 0.99; MnO 1.17; TiO ₂ 0.30; Na ₂ O + K ₂ O 0.98; SO ₃ 0.15; forty percent solution of technical caustic soda according to GOST 2263-79.

The preparation of the binder is as follows: thoroughly mix the tripoli, 40% sodium hydroxide solution and water in a weight ratio of 1: 1.34: 3.10, ground to a specific surface, respectively, after which they are kept in a closed vessel for four hours at 95 ° C. The liquid phase of the obtained suspension is represented by liquid glass with the following indicators: SiO ₂ concentration _of 160 g / l, silicate module m = 1.37, density 1200 kg / m. Cooled to room temperature, the product is mixed with sodium silicofluoride and wood waste in the following ratio of components, mass. %:

liquid glass slurry 47-53 sodium silicofluoride 5-7 woodworking waste 42-46

As woodworking waste, softwood chips are used according to GOST 15815 “Technological chips. Technical conditions. " The particle size distribution of wood chips must comply with GOST 19222-84 “Arbolit and products from it. General specifications. "

Products are formed from the resulting mass, followed by aging in molds under normal conditions for 4 hours to harden. The resulting products are used as wall material. The characteristics of the material in comparison with similar ones are shown in table 1. The characteristics of the composite material are shown in table 2.

Claims (1)

Composite material obtained from a mixture including sodium silicofluoride, woodworking waste, a suspension obtained by mixing ground tripoli in the Sukholozhsky deposit of the Sverdlovsk region, a 40% solution of sodium hydroxide and water in a weight ratio of 1: 1.34: 3.10, respectively, with exposure for four hours at 95 ° C followed by cooling, in the following ratio of components, mass. %:
specified suspension 47-53 sodium silicofluoride 5-7 woodworking waste 42-46