SU1656078A1 - Earth structure on thawing permafrost grounds - Google Patents

Abstract

The invention relates to construction equipment and is intended for the erection of land structures on weak foundations. The purpose of the invention is to increase the stability of the earthworks in the conditions of long-term operation due to the preservation of the base soils in the frozen state. The earth structure, located on the thawing permafrost soil 1, contains the body of the earth bed 2 and the stop prisms 3 in the peripheral zones. In this case, the inner part of the prisms 3, adjacent to the soils of the bearing part 5 of the earth bed 2 and the base, is made in the form of a continuous layer 7 of sorted rock soil. In the upper 9 and lower 8 parts, the layer 7 is in contact with the air. As a result of the additional convective heat exchange between the particles of the rocky soil t-ra inside the layer 7 is significantly reduced. This contributes to the rapid cooling and freezing of soils of the bearing part of the body of the earth bed 2 and the base. 1 il. w fc

Description

The invention relates to the construction and can be used in the construction of earthworks on weak when thawing permafrost soils.

The purpose of the invention is to increase the stability of earthworks in conditions of 5 "/ long-term operation by preserving the soil of the base in a frozen state.

The drawing shows an earthen construction 1C located on thawing permafrost soils 1, containing the body of the subgrade 2 and thrust prisms 3 located in the peripheral zones.

The body of the subgrade is made of 1ί two parts: the upper part is from drainage soils 4 and the lower one is made from loam 5. A layer 6 of synthetic non-woven material is laid on the border of these parts.

The inner part of the thrust prisms 3, 2C adjacent to the bearing part of the body of the subgrade 5 and the base is made in the form of a layer 7 of sorted rock soil with a size of 0.2-0.5 m, a thickness of 1 m, contacting in the lower part 8 and ver-2E henna part 9 with air. At the boundary of the rocky layer and the body of the subgrade, insulation 10 is made of synthetic non-woven material.

The earthwork works as follows (3).

In winter, with the onset of negative temperatures, the upper soil layers of the body of the embankment begin to freeze, and at the same time, in the upper and lower parts of the 3ί thrust prisms of the body of the subgrade, cold air begins to flow into the continuous rocky layer through the pore space between the particles of rocky soil. four(

The temperature inside the rocky layer significantly decreases as a result of additional convective heat transfer between particles of rocky soil. This contributes to the rapid cooling and freezing of soils of the bearing part of the body of the subgrade and foundation, the freezing of which in the known structures of earthen structures occurs at a slow 10 pace.

In spring, when positive average daily air temperatures come, the thawing of the subgrade body body occurs slowly compared to 15 ordinary embankments, since it is known that the average annual temperature of the soil in contact with the rock sprinkling is 2.5-4 ° lower than under normal conditions. This makes it possible to preserve the foundation soils in the frozen state during almost the entire summer period and to ensure the stability of the earthworks in the subsequent period of operation.

Claims (1)

An earth structure on thawing permafrost soils containing the body of the subgrade and thrust prisms in 30 peripheral zones, characterized in that, in order to increase the stability of earth structures in conditions of long-term operation due to the preservation of the soil of the base in a frozen state, 35 the inside of the prisms adjacent to the soils of the supporting part of the body of the subgrade and the base, made in the form of a continuous layer of sorted rock soil in contact with the upper 40 and lower parts of the prisms with air.