SU962443A1 - Method of consolidating sagging soil under building foundations - Google Patents

Description

The invention relates to the construction of buildings and structures on subsiding soils, in particular to strengthening the foundation for foundations by injecting fixing substances.

The known method l is the fixing of subsidence soils by introducing into NCS an aqueous solution of sodium silicate with a density of 1.40-1.10 g / cm.

The closest to the present invention is the method C2 of securing a loess subsided soil while strengthening the foundations of buildings and structures, including the injection of an aqueous solution of sodium silicate with a density of 1.251, 02 g / cm into the soil of the base of the foundation.

The disadvantage of these methods is that the consolidation of the soil is carried out over the entire area of the base with the same degree of hardening, while due to the relatively high density of the injected solution, its distribution zone is limited, and this leads to the need for frequent immersion of the injection equipment, as a result of which the complexity of the work.

The purpose of the invention is to reduce the consumption of sodium silicate and labor input.

The goal is achieved by the fact that in the method involving the injection into the ground of the base of the basement an aqueous solution of sodium silicate with a density of 1.25-1.02 g / cm, the injection of sodium silicate solution is carried out

10 in the f.-Ba stage, at the first of which the injection of the solution leads to the base of the inner foundations to the depth of the zone deformed by the building’s weight and the contour of the w.,; the soil that arises when soaking, to its lower boundary of the subsidence, and the density of the sodium silicate solution at the first stage is equal to 1.251, 10 g / cm, and at the second, 1.081, 02 g / cm.

The technology for carrying out the method consists in the fact that for buildings and structures with location of the foundations along their contour and inside the contour, a different density of an aqueous solution of sodium silicate of the bases of lowering the carrying capacity of the soil, which is injected into the bulk of the suitable soil, can be used. At the same time, initially around the building there is created a densely compacted zone in the form of a casing that encloses it due to the injection of a solution of sodium silicate with a density of 1.25-1.10 g / cm. At the same time, a solution with the same density is introduced under the internal foundations. In this case, the depth of injection of the solution is equal to the value of the soil layer which is practically compressible by the weight of the building. The next step is to strengthen the soil mass inside the cage with a solution of sodium silicate with a density of 1.08-1.02 g / cm, while the solution, as less viscous, can penetrate the ground for a greater distance, which allows it to be introduced over a larger the distance of one injection point from another than when the solution is injected with a density of 1.25-1.10 g / cm. The depth of treatment with soil with a lower density of the solution is applied within the lower limit of the subsidence of the soil and the beginning of its possible priming in the case of soaking. The method is carried out in the following sequence. In the area designated for the impact of an administrative building with a plan size of 159x25 m, the contours of the fortified area (cage) around the building and the contours along the sides of the inner foundations are indicated. The cage width is 15 m, and the total volume of the cage array to be reinforced is 23,000 m. Then, an aqueous solution of sodium silicate with a density of 1.12 g / cm, the total consumption of which is 2,390 tons, is injected into the soil by injection. After that, soil is fixed to the soil with a layer thickness of 15 m and the initial depth of from which the introduction of the solution is started is 2 m. A solution of sodium silicate with a density of 1.05 g / cm is used, the total volume of compaction is 60,000 m, and the consumption of sodium silicate is t. tlo of the same technology, three more similar buildings are erected with simultaneous reinforcement of the soil in a known manner.

Note

The density of the solution used and the results of the work are given in the table.

The application of the proposed method of securing the soil provides the required carrying capacity of the subsiding soil with less labor input due to the reduction of injection sites and different depth of reinforcement, which ultimately will reduce the cost of preparatory work in the construction of buildings and structures.

Claims (2)

1.Goncharova L.V. Osio artificial soil improvement. Moscow, Moscow State University Publishing, 1973, p. 238-264. 2. Authors certificate of USSR 761656, cl. E 02 D 3/12, 1975.