SU1296898A1 - Method of determining strength characteristics of ground - Google Patents

Abstract

The invention relates to the construction, in particular to the study of the properties of soils, and makes it possible to increase labor productivity in the laboratory determination of the strength characteristics of the soil by conducting tests on one sample. To do this, on a soil sample placed in a flat sdbig device. in the first stage, a compaction pressure P is applied, and a shear load with a shear displacement up to D / -JP, / E d successively in two opposite directions, and the average resistance to shear of the soil is determined when U is displaced. (t,). At the second stage, the compaction pressure is increased to P and after that the sample is shifted in the initial direction with the shear load adjusted to the critical one, the shear j corresponding to the critical resistance of the soil and the internal friction angle cf and grip are calculated using the formulas cf arctg (,) / (P, -PJl- l / / o, hail, and С -P i-tgc ,, Sha, where Cj is the ground resistance to shear at the second stage of testing with a shear displacement L, i, / E d , Sha, E - modulus of soil deformation a j Sha, K - constant of the tested soil type, d - diameter of the surface soil soil, mm. 4 table. i (L N3: about 3 00; about 00

Description

. one

The invention relates to the construction, in particular to laboratory studies of the strength characteristics of the soil.

The purpose of the invention is to reduce the time of determination.

The method is carried out as follows.

A soil sample is placed in a flat shear chamber. A vertically directed pressure P, is applied to the sample. Then a shearing load is applied stepwise and the movement of the moving part of the device with the ground is recorded. The maximum shear load is predetermined by the magnitude of the displacement

B

where E is the modulus of soil deformation,

MP-,

d is the diameter of the soil sample, mm; K is the constant of the tested soil type.

Then, shear loading is reduced to zero and shifted in the other direction. A shear load is applied in the same steps. After the total movement of the moving part of the device is achieved in one and other directions close to zero, the shear load is reduced to zero. This completes the first stage of the test.

At the second stage of testing, the sealing pressure from P, is increased. to P, apply steps in shear to the initial direction, fix the amount of displacement from each step of the load, and bring it to a critical one when a sample is destroyed or a continuous creep occurs. This completes the test, after which the mean value of the soil shear resistance during displacement b is determined, in the first stage for one and the other direction, the ground shear resistance in the second test stage with shear displacement

A, j &, KTJ- d (tj) and critical

ground resistance to shear on the second jrane of tests, and on the basis of the data obtained, the internal friction q and coupling values are calculated.

arctg I

R-R

Tj-y,

i

hail

Where

R

L - t j.

-, MPa.

G. rimer K On a shear device of a single-plane shear, dense fine quartz sand is investigated with a density of 1775 kg / M with a porosity factor of 6 0.497 and a K of 0.065.

At the first stage, the sealing pressure P, 0.05 Sha. The modulus of deformation E of this sand at a pressure P, 0.05 MPa is equal to 72 MPa, the displacement to which the test is carried out at the first stage, l,

| -. 71, 4 0.72 mm.

 0.065

After reaching the specified shear displacements L, the shear load is reduced to zero and applied in the opposite direction, fixing the shear displacement g and the soil resistance corresponding to shear c.

The results of the test in the first stage are given in Table 1.

When moving l, 0.72 mm the average value of the shear resistance

wed

 0.035 MPa.

At the second stage, the sealing pressure is increased to P 0.15 MPa.

The results are shown in table 2. J5 According to the test results, the internal friction angle is determined as follows:

cf arctq (55 .- .. h5. .o, i5

h - arctgi 0.15-0.05 0.095

45

40

 43.45 °.

Example 2. Testing of an artificial mixture (clay -. Kaolin 60%, sand fraction 0.25 - 0.5 mm 40%), humidity 112%.

The module of the de jurement is E t MPa, L, 1.76 mm „P, 0.025 MPa.

The results of the first stage of testing are given in table 3.

The results of the second stage of the test, 50 or at Pj, 0.1 MPa, are given in Table 4.

, 8.75 - 8.3x 8.75 Cf arctg (--------) --5

55

 0.034, where C is 8.16 Sha.

The application of the proposed method allows to reduce the time to determine the strength characteristics of the soil

by testing a single soil sample.

Claims (1)

Invention Formula The method of determining the strength characteristics of the soil, including applying to the sample of the soil in the shear device a compressing pressure and a stepwise increasing shear load, measuring the shear displacements of the soil sample, determining the shear resistance and calculating the strength characteristics of the soil, characterized in that The tests are carried out on one sample in two stages, with the shear load being applied in the first stage successively in two opposite directions, tractive movement in both directions is adjusted to a value, and Cl | P / E d, reducing the shearing force to zero when reaching a specified value displacements, in the second stage, a shear load is applied in the initial direction, bringing it to a critical load with a larger sealing load, and the strength characteristics of the soil — the angle of the inner U, mm, in one direction 0.02 0.135 0.230 0.550 d, mm, in anti-2968984 friction, q and clutch C calculate the formula: fO 15, 20 25  thirty WITH where R. . y “P cp arctg (). 4: .grad.  - and R. -Ci MPa, P €. sealing pressures at the first and second stages, respectively, of the test, MPa; the average value of the soil shear resistance at the first stage in the shear displacement D, for both directions, Sha; soil shear resistance at the second stage of testing with shear displacement ij  D, K tlP, / E. d, Mna; critical shear resistance at the second stage of testing, MPa; E - deformation modulus soil, MPa; d is the diameter of the soil sample, R K - constant of the tested soil type, share of units. Table 1 1.05 Table D, mm, in one direction 0.060.12 0.240.34 0.510.77 1.81 "7.8.3 kPa -0.12 -0.27 -0.53 -0.76 -1.10-1 b9 &. mm0.045 0.140.220.36 0.530 | 7c 1.9 Compiled by G. Martynov Editor M. Nedoluzhenko Tehred I. Popovich Corrector M. Demchik 768/44 Circulation 777 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4 T a b l and c a .3 Table 4 Unmitigated creep at tj a 8,75 kPv