SU834316A1 - Method of consolidating loess soil - Google Patents

Description

The invention relates to the construction and can be used for chemical stabilization of subsidence loess soils in the pre-construction period when working in the pit.

A method is known for eliminating subsurface * properties of soils by squeezing * into the soil a solution of sodium silicate of 10-20% - ^ concentration fl}.

The disadvantage of this method is that for its implementation consumes a large amount of sodium silicate, and sufficiently high strength obtained silicated loess not used in the Ginzburg- _JS damentostroenii.v fully.

Closest to the proposed is a method of stabilizing loess soil by injecting an aqueous solution of sodium silicate p] into the soil.

However, the significant drawbacks of loess soil compaction by soaking are the long lead times caused by the small filtering coefficient of the soaked loess, insufficiently high strength properties of the sagging loess and the presence of long-term sedimentary phenomena in the post-subsidence period, due to the high creep of the soaked loess moving from the core to the unconsolidated priming.

The purpose of the invention is to increase the strength properties of loess soil, reducing work and eliminating post-landing consolidation.

This goal is achieved by the fact that in the method of fixing loess soil, mainly in the pit, by soaking it, soaking is carried out with a 2-3% solution of sodium silicate.

The sodium silicate solution has a density of 1.02-1.03 g / cm Λ ³ 83431

In contrast to the existing process of silicification of loess soil, · in which soil consolidation is due. is concentrated silicate and calc-silicate gels, according to the proposed method, in a leSg ⁵ soil in an alkaline environment created by highly diluted sodium silicate solutions, mobile silicic acid, aluminum hydroxide and lime are activated and lime is formed and is stable over time. irreversibly stabilize loess soil for long periods.

The test results of soils stabilized by the proposed and known methods are presented in the table.

20 Indicators Composition to stabilize soil G sodium silicate solution water 25 2% 3% Coefficient " thirty filtration, m / day ’2.2 2,3 0.13 The compressive strength of the soil, MPa, in days 35 1 0.28 0.26 θ ' ¹ 7 0.30 0.35 0.14 40 28 0.43 0.38 0.18

4 Table continuation Indicators Composition for soil stabilization sodium silicate solution water 2% 3% Draft load 0.15 MPa,% 6.8 4.9 14.8 Stabilization time nation, min 60 / .60 300

The behavior of the filtration coefficient of the stabilized loess is caused by soil structuring and the formation of waterproof aggregates.

The sieve analysis shows that the number of water-resistant aggregates larger than 1 mm increases from 12 (soaked loess) to 78-84% -, and fraction -. The fraction of particles of 40.25 mm decreases, respectively, from 51 to 8-11%.

Claims (2)

The invention relates to the construction and can be used for the chemical stabilization of subsidence loess soils in the pre-construction period when working in the pit. A method for eliminating the subsidence properties of soils by injecting sodium silicate solution into a soil of 10–20% of the concentration fl is known. The disadvantage of this method lies in the fact that a large amount of sodium silicate is consumed in its implementation, and the obtained sufficiently high strengths of silicified loess are not used in foundation engineering to the full. The closest to the proposed method is to stabilize a loess grzgnt by pumping an aqueous solution of sodium silicate into the ground. in the subsidence period, due to the high creep of soaked loess, moving short-circuit act in the unconsolidated soil. The purpose of the invention is to increase the strength properties of loess soil, reducing the production of work and eliminate post-consolidation consolidation. This goal is achieved by the fact that in the method of fixing loess soil, mainly in the trench, by soaking it, soaking is carried out with a 2-3% solution of sodium silicate. The sodium silicate solution has a density of 1.02-1.03 g / cm 383 Unlike the existing process of silicatization of loess soil, in which soil consolidation is due to concentrated silicate and calcareous silicate gels, according to the proposed method in leyg soil under alkaline conditions the medium created by highly dilute solutions of sodium silicate, is the activation of mobile silicic acid, aluminum hydroxide. and. To produce and form a stable, during the time of the mesh, an irreversible abilize the loess soil. The test results of the soils stabilized by the proposed and known methods are presented in the table. Filtration coefficient, 2.3 0.13 m / day 2.2 Soil strength under compression, mPa, after, day 0.26 0.1 1 0.28 0.35 0.14 7 0.30 28 0.43 0 , 38 0.18 Continuation of the table. Indicators. The decrease in the filtration coefficient of stabilized loess is caused by the structuring of the soil and the formation of waterproof aggregates. Sieve analysis shows that the number of waterproof units larger than 1 mm in size increases from 12 (soaked loess) to 78-84%, and fraction-. The qi of 0.25 mm particles decreases accordingly from 51 to 8-11%. The invention of the method of fixing loess soil, mainly in the foundation pit, by soaking it with an aqueous solution of sodium silicate, characterized in that, in order to increase the strength properties, reduce production and eliminate post-squeeze consolidation, soaking is carried out with a 2-3% sodium silicate solution . Sources of information taken into account in the examination 1.Goncharova L.V. The basics of artificial soil improvement. Ed. Moscow State University, 1973, p. 256. 2.SNIP 111-B 5-62, p. 1, 2c; 2.1v; 2.1g.