SU785417A1 - Soil-consolidating method - Google Patents

Description

(54) METHOD FOR SOIL STRENGTHENING

The invention relates to the reinforcement of soil in the construction of npovbaulennyh and residential buildings and structures, in particular, to the strengthening of the soil with multifaceted curing compositions with the introduction of their explosive energy explosives. The known method of soil compaction, which includes drilling wells, filling them with water until the soil is wetted, placing explosive charges in the wells and making them explode. The disadvantage of this method lies in the fact that the strengthening of the soil is achieved with, even a change in its density as a result of an explosion, which excludes the possibility of further improving the strength of the soil, while the injected liquid is not used to form durable inclusions or form additional bonds soil particles. The closest to the present invention is a method of strengthening the soil, which includes drilling wells, filling them with components of a hardening composition together with explosive charges and implementing the disadvantage of this method is that the composition gradually increases the viscosity during the filling of wells with pomponents, which limits the depth its penetration into the ground, and hence productivity. The purpose of the invention is to increase productivity by ensuring the introduction of components of the fixative composition at different times. The technology of the proposed method. Is as follows. At the work site, wells are drilled, using them to pressurize a non-averaging component of the fixative composition into the ground, for example, a mud solution, which, due to the low viscosity, penetrates a large distance from the skaza; After soaking. the linear solution of the explosive substance, fill it in the substrate, for example with cement, and carry out an explosion of charges, with the explosion energy of the explosive particles penetrating the soil and hardening introduced by the non-core component, form a durable

FIG. Figure 1 shows a fortification (soil array along one of the wells, a section; Fig. 2 shows section A-A in Fig. 1 after the explosion of an explosive charge.

To reinforce massif 1 of sandy loam bulk soil

3 m two wells are drilled 2 with a depth of 1.5 m and a diameter of 0.05 m, located at a distance of 2 m. Initially water is poured into the drilled wells 2, a non-hardening component of the fixative composition and after it is absorbed by the soil % Borehole 2, along their axis, place linear explosive charges from detonating cord 3 with a charge density in terms of TNT 100 g / m, and then wells 2 are filled with dry cement

4 and fall asleep from above with a layer of soil 5, which acts as a tamper. The detonating cord 3 is connected to the detonator cap b by an igniter cord 7.

After preparation of the squawkin 2, they detonate a cord of detonation 3.

As a result of the explosion, a cement 4 penetrates the ground at a distance of 0.175 m. Within the limits of border 8 (see Fig. 2) of the spread of cement 4, large monolith 9 of cemented soil and small monoliths 10 are formed. Strength of hardened

Compressive soil after 12 hours averages 40 kg / cm.

The application of the proposed method for strengthening the soil makes it possible to increase labor productivity by 5-7 times with a corresponding decrease in the cost per unit volume of the fortified soil, as well as to improve the quality of the strengthening by increasing the strength of the soil.

Claims (2)

1. USSR author's certificate number 183131, cl. E 02 D 3/10, 1963. 2. Kushnarev D, M. Explosive energy use in construction. M., stroiizdat, 1973, p. 145. 0 Phage.