RU2708768C1 - Method for determining characteristics of soil swelling - Google Patents

Abstract

FIELD: soil science; measurement technology.

SUBSTANCE: invention relates to construction soil science and is used in engineering-geological surveys for construction on swelling soils, in particular, for determining free swelling and swelling pressure of soils. Method for determining characteristics of soil swelling includes soaking and holding till stabilization of soil sample deformation with known values of plasticity number, natural moisture content, humidity at yield point and porosity coefficient, loading soil sample with pressure and recording values of soil sample deformation and acting pressure at all stages of soaking and loading, wherein tests are carried out on one soil sample, loading of which is performed with constant rate of change of pressure, providing completion of consolidation with specified tolerance, note here that soil sample and active pressure deformation values are recorded after every 0.005 mm of soil sample deformation, and soil sample is loaded to pressure at which value of sample deformation becomes zero.

EFFECT: high accuracy and reliability of determining soil swelling characteristics, shorter test time and labor input.

1 cl, 2 dwg

Description

The method relates to construction soil science and is used in engineering-geological surveys for construction on swellable soils, in particular, to determine free swelling and pressure of swelling of soils.

A known method for determining the relative deformation of swelling and swelling pressure of soils by the method of one curve, which consists in the fact that several samples of the same soil with known values of the number of ductility, natural humidity, moisture at the yield strength and porosity coefficient are loaded in compression devices with different pressure withstanding to stabilize the deformation: the first sample is loaded with a pressure of 0.0025 MPa, the second is 0.025 MPa, the third is 0.05 MPa, the fourth is 0.1 MPa, the fifth is 0.2 MPa, etc. to the required pressure in accordance with the test program. Then, each of the soil samples is soaked, maintained until the deformation is stabilized, and the obtained values of the swelling strain are recorded. According to the tests of all soil samples, a graph of the dependence of the swelling strain on pressure is constructed and the swelling pressure is determined as the pressure at which the swelling strain of the soil sample is zero [1. Recommendations on laboratory methods for determining the characteristics of swelling soils (p. 3, p. 10-11). - M .: Stroyizdat, 1974. - 19 p .; 2. GOST 12248-2010 Soils. Laboratory methods for determining the characteristics of strength and deformability (paragraph 5.6, p. 25-28). - M .: Standartinform, 2011. - 82 p.].

The disadvantages of this method are:

- use for testing several samples of the same soil (at least 6), for which it is necessary to select large monoliths from the mine workings, which increases the labor and material costs of preparing soil samples for testing;

- the need for long-term simultaneous or sequential use of several compression devices, increasing the duration and cost of the test;

- low accuracy and reliability of the determination results due to the receipt of only one stabilized deformation value during testing of each sample.

A known method for determining the pressure of soil swelling by the direct method, which consists in soaking a soil sample with known values of the plasticity number, natural humidity, moisture at the yield strength and porosity coefficient, placed in the odometer, and holding it to stabilize the deformation of the soil swelling, applying to the soil sample, through the mash pressure on the compression device, pressure up to a sharp increase in the electrostatic resistance of the oil film in the fluid dose and holding the applied pressure to a stable ization soil sample deformation for which accept pressure variation is not more than 0.1 kgf / cm ² for 15 hours. The magnitude of the hydrostatic pressure in the load cell, produced when this value is determined by a preliminary soil swelling pressure and swelling of the calculated pressure value soil take the arithmetic average of the pressure obtained when testing at least six samples of the same soil [Recommendations for laboratory methods for determining the characteristics of swelling soils (p. 4, p. 11-12). - M.: Stroyizdat, 1974. - 19 p. (prototype)].

The disadvantages of this method are:

- use for testing several samples of the same soil (at least 6), for which it is necessary to select large monoliths from the mine workings, which increases the labor and material costs of preparing soil samples for testing;

- the need for long-term simultaneous or sequential use of several compression devices, increasing the duration and cost of the test;

- low accuracy and reliability of the determination results due to the receipt on each sample only one value of the stabilized deformation;

- pressure swelling of soils is determined indirectly, which reduces the accuracy and reliability of the results.

The objective of the invention is to improve the method for determining the characteristics of the swelling of the soil, which improves the efficiency of the test.

The technical result of the invention is improving the accuracy and reliability of determining the characteristics of soil swelling, reducing test time and labor.

The technical result is achieved by the fact that in the method for determining the characteristics of soil swelling, which consists in soaking and holding until the deformation of the soil sample is stabilized with known values of the plasticity number, natural humidity, humidity at the yield point and porosity coefficient, loading the soil sample with pressure and recording the values of the soil sample deformation and the operating pressure at all stages of soaking and loading, according to the invention, the tests are carried out on one soil sample, and loading the sample and the soil is produced at a constant rate of pressure change, ensuring the completion of consolidation with a given tolerance and determined depending on the physical properties of the soil, according to the formula

where V _max is the maximum loading rate of the soil sample, kPa / h [Denisenko VV, Lyashenko P.A. About the standard for the method of compression testing of soils with an ever-increasing load // Scientific works of the Kuban State Technological University, 2017, No. 4. - S. 27-42. - URL: http://ntk.kubstu.ru/file/1594];

I _P is the number of soil plasticity,%;

W - natural soil moisture,%;

W _L - soil moisture at the yield strength,%;

e is the coefficient of porosity of the soil, e .;

Q is the allowable relative deformation of the completion of the consolidation of the soil sample, taken equal to 5% [Denisenko V.V., Lyashenko P.A. Substantiation of the criterion for choosing the rate of soil loading during compression tests with an ever-increasing load // Scientific works of the Kuban State Technological University, 2016, No. 5. - S. 110-122. - URL: http://ntk.kubstu.ru/file/962], while the values of the deformation of the soil sample and the effective pressure are recorded every 0.005 mm deformation of the soil sample, and the loading of the soil sample is carried out to a pressure at which the strain value of the sample becomes zero.

Loading a soil sample at a constant speed, determined depending on the physical properties of the soil, to a pressure at which the strain value of the sample becomes zero, allows testing on a single soil sample, increasing the reliability and accuracy of the test results.

The registration of the values of the deformation of the soil sample and the applied pressure after every 0.005 mm deformation of the soil sample increases the accuracy of the test results and allows you to get a large data array when testing one soil sample, providing the possibility of assessing the error in determining the characteristics of soil swelling, etc. increases the reliability and accuracy of determining the characteristics of soil swelling, reduces to one the number of tested soil samples and the size of monoliths taken from mine workings for testing.

Thus, the combination of these distinctive features provides a new positive effect and is the essence of the invention.

The above allows us to argue that the proposed technical solution meets the criteria of the invention of "novelty", "inventive step".

Explanations of the claimed method for determining the characteristics of soil swelling and one of the variants of the device for implementing this method are schematically shown in the drawing, where:

FIG. 1 is a schematic block diagram of a device for implementing a method for determining soil swelling characteristics;

FIG. 2 is a graph of the deformation of swelling of soaked soil versus pressure s _sw (p) during pressure unloading at a constant rate to zero deformation of the soil sample.

A device for implementing the method for determining the characteristics of the swelling of the soil consists of a working chamber 1 placed on the base table 2, a sensor 3 for deformation of the soil sample, a sensor 4 for the applied pressure, a loading mechanism 5, a soaking agent 6 for the soil sample and a control unit 7.

The working chamber 1 is made in the form of an odometer of a compression device and consists of a collapsible case with a water supply 8 and a water level indicator 9, a hard working ring 10 that prevents lateral expansion of the tested soil samples, a stationary perforated stamp 11 and a movable perforated stamp 12. In the working chamber 1 place the test soil sample 13.

The sensor 3 deformation of the soil sample is designed to measure alternating linear displacements of the movable die 12 (deformation of the sample) with an error of not more than 0.005 mm and can be performed, for example, in the form of a raster photoelectronic linear displacement transducer.

The sensor 4 of the magnitude of the applied pressure is designed to measure the applied pressure during loading or unloading of the soil sample and can be performed, for example, in the form of a compression dynamometer with a raster photoelectronic linear displacement transducer.

The loading mechanism 5 is designed to load a soil sample to a given pressure at a constant speed specified by the control unit 7 depending on the physical properties of the soil.

The soil sampler 6 is designed to supply water to the working chamber 1 and maintain a water level in it above the height of the soil sample 13 during its testing.

The control unit 7 is designed to set the test program and control the operation of the device during its execution, in particular, for: turning on the soaking device 6 for soaking and holding the soil sample until the deformation is stabilized; switching on the loading mechanism 5 for loading the soil sample; monitoring a given constant loading rate of the soil sample; monitoring and recording in electronic memory the values of sample deformation (subsidence and swelling) and effective pressure every 0.005 mm during soaking and loading of the soil sample; issuing test results to the display of the control unit 7 and an external computer.

The method of determining the characteristics of the swelling of the soil is as follows.

A soil sample 13 of undisturbed composition with natural humidity is loaded into the working ring 10, placed on a fixed stamp 11 in the working chamber 1, covered with a movable stamp 12 and mounted on a base table 2. A sensor 3 for deformation of the soil sample 3 is supplied to the movable stamp 12, a sensor 4 the applied pressure and the loading mechanism 5, and a soaking device 6 is connected to the inlet 8, which is filled with water. In the control unit 7 set a constant rate of increase in pressure on the soil sample, ensuring the completion of consolidation with a given tolerance and determined depending on the physical properties of the soil by the formula (1), and turn on the device.

When the device is turned on, the soil sample deformation sensor 3 and the applied pressure sensor 4 are zeroed, the soaking device 6 is turned on, and the soil sample is soaked so that the deformation of the soil sample is stabilized s _sw (segment Oa in Fig. 2). In the process of soaking the soil sample, the deformation of the soil sample at constant pressure is monitored and recorded every 0.005 mm of deformation of the soil sample.

Then, the loading mechanism 5 is turned on and the soil sample 13 is loaded at a predetermined constant rate of pressure increase until the deformation of the soil sample has a zero value (curve ab of Fig. 2). During the loading of the soil sample, the deformation of the soil sample is monitored and the deformation of the soil sample and the effective pressure are recorded every 0.005 mm of deformation of the soil sample.

After reaching a deformation of the soil sample equal to zero (point b of Fig. 2), the load mechanism 5 is turned off, and the test results are displayed on the control unit 7 and an external computer.

For the pressure of the swelling of the soil take the pressure at which the deformation of the soil sample is equal to zero (segment Ob Fig. 2).

As a device for determining the characteristics of soil swelling, any known device can be used to ensure testing of a soil sample in accordance with the described method for determining the characteristics of swelling, for example, AKP-6N automatic compression device for testing soils with an ever-increasing load [V. Denisenko, Lyashenko P.A. Automatic compression device AKP-6N for soil testing with an ever-increasing load // Scientific works of the Kuban State Technological University, 2016, No. 6. - S. 156-169. - URL: http://ntk.kubstu.ru/file/1014], which confirms the compliance of the invention with the criterion of "industrial applicability".

Thus, the invention reduces the number of test samples to one, reduces the size of the monoliths taken from the mine workings for testing, increases the reliability and accuracy of determining the pressure of the swelling of the soil, reduces labor costs and test time.

Claims (9)

A method for determining the characteristics of soil swelling, including soaking and soaking to stabilize the deformation of the soil sample with known values of the number of plasticity, natural humidity, humidity at the yield point and porosity coefficient, loading the soil sample with pressure and recording the values of the soil sample deformation and effective pressure at all stages of soaking and loading, characterized in that the tests are carried out on a single soil sample, the loading of which is carried out at a constant rate of pressure a condition ensuring the completion of consolidation with a given tolerance and determined, depending on the physical properties of the soil, according to the formula (1)

where V _max is the maximum loading rate of the soil sample, kPa / h; I _P is the number of soil plasticity,%; W - natural soil moisture,%; W _L - soil moisture at the yield strength,%; e is the coefficient of porosity of the soil, e .; Q is the allowable relative deformation of the completion of the consolidation of the soil sample, taken equal to 5%, at the same time, the deformation of the soil sample and the effective pressure are recorded every 0.005 mm of deformation of the soil sample, and the loading of the soil sample is carried out to a pressure at which the value of deformation of the sample becomes zero.

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