RU2203484C2 - Procedure determining heaving pressure of freezing soil - Google Patents

Abstract

FIELD: physics of soils. SUBSTANCE: procedure includes deformation of soil sample in non-freezing fluid. Sample is deformed by its freezing in isolated volume of non-freezing fluid. Pressure of this fluid in process of sample freezing is measured and value of pressure of fluid is used to determine value of pressure of soil heaving. EFFECT: potential for determination of pressure of volume compression formed in freezing wetted soil. 1 dwg

Description

 The invention relates to the field of soil physics and can be used to study their heaving.

 There is a method of determining the heaving pressure of freezing soil, including the deformation of its sample (AS USSR 966572, CL G 01 N 25/58). The disadvantage of this method is the complexity of the graphical interpretation of the results.

 The closest in its technical essence is a method for determining the heaving pressure of freezing soil, including the deformation of its sample in an ice-free liquid (Ice and snow. Properties, processes, use. Mir Publishing House, Moscow, 1966, p. 25).

 The disadvantage of this method is that it lacks the possibility of studying the effect of the phase transformation of soil water into ice on its physical and mechanical properties. This drawback does not allow to study the heaving pressure of freezing soil.

 An object of the present invention is to determine the volumetric compression pressure generated in a freezing moist soil.

 The present problem is solved in that in a method for determining the heaving pressure of a freezing soil, including deformation of its sample in a non-freezing liquid, the deformation of a soil sample is carried out by freezing it in an isolated volume of non-freezing liquid, while the pressure of this liquid is measured during freezing of the sample and the magnitude of the liquid pressure judge the magnitude of the pressure of heaving soil.

Before freezing the sample in a non-freezing liquid, the temperature of the non-freezing liquid is reduced to - (-2) - (- 4) ^o C.

 The drawing shows a diagram of a device that implements this method.

 The device consists of a pallet 1, in which a capsule 2 with a test soil sample is placed 3. The pallet, by a flange connection 4, is attached to the housing 5, which is filled after fastening with non-freezing liquid 6, which is immiscible with the moisture of the test sample. The housing 5 is equipped with a liquid pressure gauge 7 and in the upper part of the filler pipe 8 with the adjusting screw 9.

 The method is as follows. The test soil sample is formed by completely filling the capsule 2 (with an open top), then the capsule is placed in the central part of the pallet 1, which is subsequently connected to the housing 5 by means of a flange connection 4. Next, non-freezing liquid 6 is poured through the filler pipe 8 until the inner cavity is completely filled housing 5. After filling the housing 5 in the filler pipe 8 screw the adjusting screw and thereby create an initial overpressure in the cavity of the housing. Then, the adjustment screw 9 is unscrewed and the remaining air is removed from the device, after which additional pouring of non-freezing liquid is carried out. After screwing the adjusting screw a second time, the device is placed in a refrigerator and, depending on the temperature drop, the pressure gauge is recorded during freezing of the sample.

Example 1. To determine the heaving pressure of the freezing loam with a moisture content of 31%, a sample was taken using a cylindrical capsule and placed in a device that was filled with engine oil cooled to -2 ^o C. After filling with oil, the device with the test sample was placed in a freezer with temperature -10 ^o C. Fixing the measurement of the liquid manometer in time, the following data were obtained: after 50 minutes from the start of the experiment, the oil pressure in the device was 17 kg / cm ² , after 90 minutes - 25 kg / cm ² , after 130 minutes - 29 kg / cm ² . The maximum steady-state pressure was 33 kg / cm ² .

Example 2. To determine the heaving pressure of the freezing soil, a loam sample was taken and brought by humidification to the state of full moisture saturation. After wetting, the sample was placed in the internal cavity of the device for determining heaving, which was subsequently filled with non-freezing engine oil cooled to -2 ^o C. After filling with oil, the device was placed in a refrigerator with a temperature of -10 ^o C. After 3 hours from the start of the experiment, the established maximum value the pressure created by the freezing sample was 55 kg / cm ² .

Claims (2)

 1. The method of determining the heaving pressure of the freezing soil, including the deformation of its sample in a non-freezing liquid, characterized in that the deformation of the soil sample is carried out by freezing it in an isolated volume of non-freezing liquid, the pressure of this liquid is measured during the freezing of the sample and judged by the value of the liquid pressure the magnitude of the pressure of heaving soil. 2. The method according to p. 1, characterized in that before freezing the sample in a non-freezing liquid, the temperature of the non-freezing liquid is reduced to (-2) - (- 4) ^o C.