RU2220925C2 - Raw meal for manufacturing heat-insulation sawdust-concrete - Google Patents

Abstract

FIELD: manufacture of building materials. SUBSTANCE: raw meal contains, wt %: Portland cement 20-30, wood sawdust 20-30, heat- and-power station ashes 6-8, liquid glass 1-2, water 35-50. Wood filler and ashes are filled in the form of common grinding product. EFFECT: achieved density of sawdust-concrete 500 kg/cubic meter. 1 tbl, 3 ex

Description

The invention relates to the field of construction, in particular the production of heat-insulating materials based on wood aggregates.

A known raw material mixture for the manufacture of sawdust concrete, including Portland cement as a binder, slaked lime, fine gravel, sawdust, clay as a filler (RF patent No. 2106322, M. class. C 04 B 28/00, 1998).

The disadvantage of the above technical solution is the increased density of the material, which is 1200 kg / m ³ . Therefore, this material cannot be used as thermal insulation.

The closest technical solution to the proposed one is a raw material mixture, including Portland cement, wood aggregate, ground ash of a thermal power plant, additive and water (SU 1682341 A1, C 04 B 18/24, 10/07/1991).

The basis of the invention is the task of developing the composition of the raw material mixture for the manufacture of heat-insulating sawdust concrete having a density of less than 500 kg / m ³ .

The essence of the invention is to enhance the surface of the wood aggregate and improve the structure of the material through the use of inexpensive and non-deficient chemical additives, as well as in the selection of the optimal composition of the raw mix.

The problem is achieved in that in the known raw material mixture for the manufacture of sawdust concrete, including Portland cement, wood aggregate, ground ash of thermal power plants, additive and water, liquid glass is used as an additive, and wood filler and ash of thermal power plants are used as a joint grinding product of sawdust and ash CHP in the following ratio of components, wt.%:

Portland cement 20 - 30

Sawdust 20 - 30

Ash TPP 6 - 8

Liquid glass 1 - 2

Water Else

Portland cement is an astringent. It is taken in an amount of 20-30% by weight of all components. With the introduction of Portland cement less than 20%, the required material strength is not ensured, and with the introduction of Portland cement more than 30% a significant increase in the density of the material occurs.

Sawdust is used as filler. They are taken in an amount of 20-30% by weight of all components of the mixture. With the introduction of sawdust of less than 20%, the density of the material increases. With the introduction of sawdust of more than 30%, an excess of them is created, the surface of the sawdust is not covered by cement particles, and the strength of the material does not reach the required values.

Ash CHP is taken as an activator and mineralizer of the surface of sawdust in the amount of 6-8%. Ash, being crushed together with sawdust, covers their surface with a thin layer, which ensures the best adhesion of sawdust to cement, and therefore increases the strength of the material. With the introduction of ash less than 6%, the necessary surface treatment of sawdust is not provided, and with the introduction of ash more than 8%, coating the surface of sawdust with a thicker layer of ash weakens the relationship between sawdust and cement.

Liquid glass is taken as an activator of cement hardening, in addition, it protects the sawdust from decay. Liquid glass is introduced in an amount of 1-2% by weight of the components. With the introduction of liquid glass less than 1%, hardening does not occur, and more than 2% cement begins to set too quickly. In this case, liquid sodium glass is used (GOST 13078 - 81), the density of which at 20 ° C is 1.5 g / cm ³ , siliceous module 2.5, pH 11.67.

The invention is supported by examples.

Example No. 1.

750 g of sawdust is co-milled with 225 g of cogeneration ash for 5 minutes and 1.312 l of water is introduced with 37.5 ml of water glass dissolved in it, and then it is kept for 1 hour. After that, 750 g of Portland cement is added to the mixture, gradually sprinkling it and mixing. The resulting mixture is placed in molds, compacted by compression in two stages, installed in an oven and incubated for 24 hours at a temperature of 55 ° C. After exposure, the stripping is carried out, and the samples are again subjected to heat treatment for 6 days at a temperature of 55 ° C.

Example No. 2.

Similar to example No. 1, but take the following number of components: sawdust - 619.9 g, ash CHP - 184.9 g, cement - 619.9 g, water glass -28.85 ml, water - 1.07 l.

Example No. 3.

Similar to example No. 1, but take the following ratio of components: sawdust - 929.8 g, ash CHP - 246.6 g, cement - 929.8 g, water glass - 57.7 ml, water - 1, 53 l.

To obtain heat-insulating sawdust concrete, pilot tests were conducted in the laboratory of the construction pavilion of Tver State Technical University (see table).

Данный опилкобетон можно использовать при строительстве зданий в качестве теплоизоляционного материала.

This sawdust concrete can be used in the construction of buildings as a heat-insulating material.

Claims (1)

Raw material for the manufacture of heat-insulating sawdust concrete, including Portland cement as a binder, wood aggregate, CHP ash, additive and water, characterized in that liquid glass is used as an additive, and wood filler and CHP ash are used as a joint grinding product of sawdust and CHP ash in the following ratio of components, wt.%: Portland cement 20 - 30 Ash TPP 6 - 8 Sawdust 20 - 30 Liquid glass 1 - 2 Water Else