SU756261A1 - Device for compression testing of soil - Google Patents

Description

The invention relates to the field of mechanical testing, in particular to methods of compression testing of soils.

The known method of compression * testing of soils, taking into account water saturation, is that the soil sample is compressed, saturated with water under pressure and, by changing the pressure value, the indicators of soil deformability are determined [1].

The known method of compressive testing of soils with regard to water saturation, which is closest to the invention by its technical essence and the achieved result, is that soil samples are compressed until the precipitation stabilizes, saturate with water until stabilization of subsidence and measure the soil deformability of the soil unsaturated and water-saturated state, which is judged on the mechanical properties of the soil. 25

Nedostaka these methods yavlyayut- ^m Xia low accuracy and low performance tests, as for determining the required characteristics must be tested in a large quantitative • samples. "thirty

The purpose of the invention is to improve the accuracy and performance of the test.

This goal is achieved by the fact that each sample is compressed at a constant load, and the load is stepwise changed from sample to sample.

The method is as follows.

A soil sample of natural moisture in an unsaturated state is placed in the odometer and loaded with the first load step until the precipitation stabilizes. After that, the sample is saturated with water, which continues until the stabilization of the drawdown. Thus produce all necessary measurements for determining an initial coefficient e _of soil porosity coefficient of e soil porosity in an unsaturated state under load and the coefficient e 'soil porosity in vodonasmtsennom state under load.

Based on these values, the compressibility indicators of the soil are determined.

according to the formulas:

756261

where A $ is the index of compressibility of the soil in an unsaturated state at the first stage of the load,

Β _ά - the compressibility index of the soil in a water-saturated state at the first load stage. "

The following soil sample is subjected to compression tests in the same sequence as the first one, but already at the second load stage, and on the basis of the data obtained, the compressibility factors A ₂ are determined.

and b

corresponding to the second stage load.

Thus, such a number of samples is subjected to compression tests, which corresponds to the required number of load steps. After that, using the obtained indicators of deformability, the deformation characteristics of the soil are determined for any number of samples taken anywhere in a lithologically homogeneous array of soil using the formulas:

<Id „-v _p ^

15

20

25

α = IA ^ -A _k ) a>

but

thirty

Ad-Ak ^e o β 1 + e _o

35

& e

where δ _ηρ is the coefficient of relative ^Р subsidence of soil, and is the compressibility factor

soil in an unsaturated state,

a _b - the compressibility factor of the soil in a water-saturated state,

40

45

E - the modulus of deformation of the soil in an unsaturated state,

E _b - the modulus of soil deformation

in water saturated condition

R; , P _to - values of the load on different steps of loading,

А ;, А _К , А _П - indicators of deformable V;, В _К , В „, obtained at various loading stages of specimens subjected to compression tests,

β is a dimensionless coefficient depending on the coefficient of lateral expansion of the soil.

The method allows to minimize the number of compression tests, which is equal to the number of load stages.

Claims (1)

Claim The method of compression testing of soils with regard to water saturation, which consists in the fact that soil samples are compressed to. stabilize sediments, saturate with water until stabilization of subsidence and measure soil deformability indicators in an unsaturated and water-saturated state, according to which mechanical properties of the soil are judged, characterized in that, in order to improve the accuracy and performance of the tests, each sample is compressed at constant load, and the load is stepped vary from sample to sample.