SU1463731A1 - Method of impregnating porous material - Google Patents

Abstract

The invention relates to methods of impregnating porous building products, materials and can be used in the industrial production of building constructions, and porous aggregates. The purpose of the invention is to accelerate the impregnation and increase its depth. The impregnated material is placed in a chamber, the lower part of which is filled with the impregnating liquid. The chamber is pre-evacuated, after which the material is immersed in the impregnating liquid and kept under vacuum. After that, the pressure is instantly equalized to atmospheric. Alternating exposure to vacuum and pressure is carried out until a predetermined impregnation depth is reached. The depth of impregnation increases and with 1.21 times. The time of impregnation is shortened. 1 tab. SL

Description

one

The invention relates to methods for impregnating porous building products and materials and can be used in the industrial production of building structures and porous aggregates.

The purpose of the invention is to accelerate the impregnation and increase its depth.

The impregnated material is placed in a chamber and vacuumed and then immersed in an impregnation. Then the liquid under vacuum and holding it, then immediately pressurize to atmospheric air intake into the chamber, vacuuming and air supply is repeated several times until the desired depth of impregnation of the material is reached: w. After impregnation, the material is removed from the chamber. As impregnating

liquids use bitumen, petrolatum; before impregnation, they are heated to a liquid state.

Example. After steaming, samples of sandy concrete of grade 300 are dried and placed in an airtight chamber, the lower part of which is filled with liquid bitumen heated to 160 ° C of the composition — 90% BVD-90/30 and 10% kero-sinin by mass. Turn on the vacuum pump. Upon reaching a vacuum of 0.3 atm in the chamber, the impregnated material is immersed in liquid bitumen, which, under the influence of thermal diffusion, penetrates into the capillaries, cracks, and pores. After an hour of exposure to the chamber, air is immediately admitted and the pressure is equalized to atmospheric. Alternating effect of vacuum and dav4ib od o9 h |

oa

Leni is repeated 2 times, then the impregnated material is removed from the bitumen and kept on the pallet to drain the excess hot bitumen.

The results of the tests are presented in the table.

Thus, the use in the proposed method of air strike for impregnation of porous materials y | is greater than the thickness of the impregnating agent compared to the impregnation in air times, and in vacuum -

HF 3 times, again This decreases sharply

1.21

moisture of the loaf and saved it

mark. Predfgaemy way gives you

the ability to speed up the impregnation process, improve weather resistance, water resistance by 20-30% compared with known methods.

Claims (1)

Invention Formula The method of impregnation of the porous material by vacuuming followed by impregnation during vacuuming, characterized in that, in order to accelerate the impregnation and increase its depth, the impregnation is carried out under alternating exposure to vacuum and pressure. The thickness of the impregnating layer rjiM Wetness of concrete after 48-hour surcharge to bo,% STRENGTH of concrete at, MPa 0.48 3.3 26.1 4.5 22.0