RU2704074C1 - Method of estimating soil deformation module - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction and is intended for assessment of physical and mechanical characteristics of base soils, which provide methods of calculating bases, foundations and underground structures with initial information. Disclosed is a method of estimating a soil deformation module, in which a wave analysis of a soil thickness of a low-velocity zone of an upper part of a section is carried out, based on the results of analysis, a profile of distribution of wave velocities in a soil mass is constructed, and a deformation module is calculated. Wave analysis is carried out by the method of multichannel analysis of surface waves, based on the analysis results, a profile of surface wave velocity distribution is constructed. Specific gravity of soil layers is calculated from surface wave velocity distribution profile γ and initial shear modulus G₀ at small deformations as per given relationships. Correlation coefficient k is determined between the deformation module and the initial shear modulus from the given relationship. Then, deformation modulus E is estimated from correlation dependence.

EFFECT: technical result consists in providing evaluation of soil deformation module, corresponding to deformation module during testing die, data on distribution of surface wave velocities in soil section, obtained by nondestructive wave method of multichannel analysis of surface waves, provision of rapid assessment of geotechnical situation of construction / reconstruction sites.

1 cl, 2 tbl, 1 dwg

Description

The invention relates to the field of construction and is intended to assess the physicomechanical characteristics of base soils, providing methods for calculating foundations, foundations and underground structures with initial information.

A known method of determining the modulus of soil deformation according to tests by dies [GOST 20276-2012 "Soils. Field methods for determining the characteristics of strength and deformability ”], including field tests for loading the soil in the array with pressure at the bottom of the punch to the final pressure and keeping it at a constant final pressure until stabilization of the draft of the punch, calculation of the deformation modulus of the tested soil. To calculate the deformation modulus, a graph of the dependence of precipitation on pressure S = ƒ (p) is plotted, plotting the p values along the abscissa axis and the ordinarily stabilized S values corresponding to them, and the average line is drawn on the straight section of the graph. The area from the zero point at the adopted initial pressure to the fourth point of the graph is taken as a straight section. The soil deformation modulus E is calculated for a rectilinear linear plot of the graph according to the formula:

where ν is the Poisson's ratio, taken equal to 0.27 for coarse soil; 0.30 - for sand and sandy loam; 0.35 - for loam; 0.42 - for clays;

K _p - coefficient depending on the ratio of the depth of the stamp relative to the soil surface h and the diameter of the stamp D, taken equal to: 1 - with h / D = 0; 0.9 - with h / D = 1; 0.82 - with h / D = 2; 0.77 - with h / D = 3; 0.73 - with h / D = 4; 0.7 - at h / D≥5;

K ₁ - dimensionless shape factor of the stamp, taken equal to 0.79 for a hard round stamp;

Δр is the pressure increment on the stamp, MPa;

ΔS - increment of precipitation of the stamp corresponding to Δp, cm, determined by the averaging line.

The disadvantages of this method are its high complexity during installation and dismantling of equipment and the timing of the tests.

The closest method of the same purpose to the claimed invention by the totality of features is a method for determining the soil deformation modulus by non-destructive wave tests [SP 11-105-97 "Geotechnical surveys for construction. Part VI. Rules for the production of geophysical surveys ”], including field tests to monitor the propagation of body waves, the construction of velocity distribution profiles of longitudinal or shear waves, and the calculation by empirical correlation dependences of the soil deformation modulus. To calculate the deformation modulus for all types of soil, it is necessary to determine the velocity of the longitudinal wave, except for sandy clay soils, for which the shear wave velocity is necessary. This method is adopted as a prototype.

Signs of the prototype, coinciding with the essential features of the proposed method - conduct wave analysis of the soil stratum of the zone of low speeds of the upper part of the section; according to the results of the analysis, a profile of the distribution of wave velocities in the soil mass is constructed, and the deformation modulus is calculated.

The disadvantage of this method, adopted as a prototype, is the considerable complexity in determining the velocities of body (longitudinal and transverse) waves by methods that register body waves, compared with the determination of the velocities of surface waves by a method that records surface waves.

The problem to which the invention is directed is to create a method for evaluating the soil deformation modulus by the speed of a surface wave obtained by the non-destructive method of wave analysis of surface waves, for the subsequent operational assessment of the geotechnical situation of construction / reconstruction sites.

The problem was solved due to the fact that in the known method for evaluating the soil deformation modulus, in which a wave analysis of the soil thickness of the low-velocity zone of the upper part of the section is carried out, the profile of the distribution of wave velocities in the soil mass is constructed from the analysis, and the deformation modulus is calculated; according to the invention, a wave analysis is carried out by the method of multichannel analysis of surface waves, according to the results of the analysis, a profile of the distribution of velocities of surface waves is constructed, the specific gravity of the soil layers γ and the initial shear modulus G ₀ for small deformations are calculated according to the dependencies:

where V _R is the surface wave velocity, m / s;

z is the depth of the sole of the layer from the surface, m;

where ρ is the density of the soil, kg / m ³ ;

V _R - surface wave velocity, m / s;

determining a correlation coefficient k between the deformation modulus and the initial shear modulus by the formula;

where γ is the specific gravity of the soil, kN / m ³ ,

then carry out the assessment of the deformation modulus E by the correlation dependence:

where k is the correlation coefficient between the deformation modulus and the initial shear modulus;

G ₀ - initial shear modulus, MPa

Signs of the proposed technical solution, distinctive from the prototype - conduct wave analysis by the method of multichannel analysis of surface waves; according to the results of the analysis, a velocity distribution profile of surface waves is built; the profile of the distribution of surface wave velocities calculates the specific gravity of the soil layers γ according to dependence (1) and the initial shear modulus G ₀ at small strains according to dependence (2); determining a correlation coefficient k between the deformation modulus and the initial shear modulus by the formula (3); evaluate the deformation modulus E by the correlation dependence (4).

The proposed method for evaluating the soil deformation modulus by the speed of a surface wave obtained by the non-destructive method of wave analysis of surface waves makes it possible to quickly and cost-effectively evaluate the geotechnical situation of construction / reconstruction sites.

In the course of experiments, the authors first obtained a correlation between the deformation modulus determined from the test data of various types of soils by stamps and the initial shear modulus determined from the data of the distribution of surface wave velocities obtained as a result of the non-destructive method of multichannel analysis of surface waves. Multichannel analysis of surface waves is a seismic-acoustic (wave) method for constructing the shear wave velocity profile of the upper section of the soil stratum, based on recording and analyzing the propagation of surface waves. The method is characterized by low labor intensity, low costs and short terms of performing field work and computer processing of wave survey results.

A search by patent and scientific and technical sources of information made it possible to establish that the dependencies for estimating the soil deformation modulus according to multichannel analysis of surface waves on the distribution of surface wave velocities in the soil section were not found.

The proposed method is illustrated in the drawing, which shows a graph of the correlation coefficient between the deformation modulus and the initial shear modulus on the specific gravity of the soil, the regression equation for calculating the correlation coefficient.

The method for evaluating the soil deformation modulus includes the following steps:

1. Field testing by the non-destructive wave method of detecting surface waves, focused on the construction of the velocity profile of surface waves by the method of multichannel analysis of surface waves, processing of experimental data and construction of wave sections of the distribution of velocities of surface waves in the soil mass.

2. Assessment of the specific gravity of the soil according to the profile of the distribution of surface wave velocities according to the proposed dependence (1).

3. Calculation of the initial shear modulus of the surface wave velocity from the proposed dependence (2).

4. The calculation of the correlation coefficient between the deformation modulus and the initial shear modulus according to the proposed regression equation (3).

5. Assessment of the deformation modulus from the proposed correlation dependence (4).

The correlation between the deformation modulus and the initial shear modulus was obtained as a result of field tests of various types of dispersed and semi-rock soils:

- fine sand homogeneous, dense, low moisture;

- argillite-like clay with lenses of sandstone of low and medium strength, weathered, fractured, watered;

- sandstone fine-grained, low and medium strength, weathered, fractured, watered;

- clay refractory and semi-solid;

- sandy-brown, sandy, flowing sandy loam, with interlayers and lenses with a thickness of up to 3-5 cm of fine, gray, water-saturated sand and loam of brown, fluid plastic;

- loam is dark gray, heavy, dusty, fluid plastic with inclusions of up to 15% of well-decomposed black organic matter;

- fine-grained sand of boring color.

According to field tests, surface wave velocities and deformation modulus were determined, soil density and initial shear modulus were calculated (tables 1, 2). The correctness of the calculation of soil density by the speed of surface waves was verified by comparison with the data on the determination of soil density by standard methods in the laboratory on samples taken during field studies. As a result of processing the obtained data by the methods of mathematical statistics, a correlation coefficient formula was obtained (Fig.) Between the deformation modulus determined by the results of field testing of soils by stamps and the initial shear modulus calculated from the data of the distribution of surface wave velocities in these soils according to the results of multichannel analysis of surface waves.

The advantage of the invention is that it allows you to quickly and inexpensively evaluate the value of the module of soil deformation and assess the geotechnical situation of the site of the new construction / reconstruction non-destructive method.

Claims (14)

A method for evaluating the soil deformation modulus, in which a wave analysis of the soil stratum of the low-velocity zone of the upper section is carried out, according to the results of the analysis, a profile of the distribution of wave velocities in the soil mass is constructed, the deformation modulus is calculated, characterized in that the wave analysis is performed by the method of multichannel analysis of surface waves, according to the results of the analysis build the profile of the distribution of velocities of surface waves, the specific gravity of the soil layers γ and n The initial shear modulus G ₀ at small strains in the dependences:

where V _R is the surface wave velocity, m / s; z is the depth of the sole of the layer from the surface, m;

where ρ is the density of the soil, kg / m ³ ; V _R - surface wave velocity, m / s; determine the correlation coefficient k between the deformation modulus and the initial shear modulus by the formula: k = -0.005286γ ³ + 0.314254γ ² -6.248539γ + 41.723895, where γ is the specific gravity of the soil, kN / m ³ , then carry out the assessment of the deformation modulus E by the correlation dependence: E = kG ₀ , MPa, where k is the correlation coefficient between the deformation modulus and the initial shear modulus; G ₀ is the initial shear modulus, MPa.

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