SU1507970A1 - Method of determining strength properties of rock - Google Patents

Abstract

The invention relates to mining and is intended to determine the physicomechanical properties of rocks in situ. The purpose of the invention is to increase the reliability by determining the indicators of rock adhesion / HF /. At the cross of the strike of the slope 1 from a horizontal surface equidistantly the sliding surface 3 drills a measuring well / IC / 2 and installs sensor 4 therein. Move sensor 4 along the entire length of IC 2 and locate the source of destruction 5. Additional vertical and horizontal non-intersecting ICs 6.7 are drilled into the area of fracture source 5 from the surface of slope 1. Then, major stresses are measured in the area of fracture 5. From the values of the latter, indicators of the adhesion of the semiconductor are calculated, by which the strength properties of the semiconductor are determined. The invention allows for small amounts of overburden and significantly reduces damage from landslide effects. 2 Il.

Description

The invention relates to mining and can be used in determining the physicomechanical properties of rocks under natural conditions.

The purpose of the invention is to increase reliability by determining the indicators of rock adhesion.

FIG. 1 shows the slope and position of the measurement wells, a section; in fig. 2 - the same in terms of .-- g- g-. .

The method of determining the strength properties of friction in the massif and over the surface of rocks is as follows. In some area, at the cross-section of the slope 1 from the horizon-sided rock massif, the measuring surface, for example, sound bore, 2

equidistant sliding surface 3. In tS, the following expression for the definition of the bore 2 sets the sound

sensor 4, for example, a geophone, moves it along the entire length of well 2, eavesdrops or magnetic recordings of the sound activity of the rock and determines

where Cm is the cohesion in the massif over the surface of weakening, MPa; f is the angle of internal friction over the surface of weakening, hail;

a (45-f / 2)

c) ordinary and special, provided that the angles φ and φ are equal, the ordinary and special conditions of the limit equilibrium are internally satisfied.

CObV

+

ig V

cos (f-f2) c.osfif + 2py

the location of the source 5 destruction, for example by the method of serifs.

In the detected area of the source 5 of destruction, across the strike of the slope 1, additional vertical lines are drilled from its surface20

X со5ф-со5 (ф + 2р) .5ш2р},

where (i is the ANGLE between the calculated slip surface and the weakening surface (crack).

This method allows, taking into account the geological structure, the strength of the rocks, to the full and horizontal non-intersecting 35 attenuation surfaces and conditions of

measuring wells 6, 7. Thereafter, „„ ;, „r.oou, nAzptprinpm mgish

in the area of the lesion 5 destruction is measured

equilibrium in the undisturbed array accurately determine the amount of adhesion of the rock mass. The use of this method will allow for small, associated natural stresses, and determine the total stress tensor whose components are the main nanoscale equilibrium in the undisturbed massif to accurately determine the amount of adhesion of the rock massif. Using this method will allow for small volumes.

yarn st, and az. According to the last-30 values.

Claims (1)

damage caused by landslide effects. Invention Formula they calculate the indicators of rock adhesion, which determine the strength properties of rocks. The calculation of the magnitude of the coupling. See the rock mass produced depending on the following conditions of maximum equilibrium a) an ordinary condition in a homogeneous environment) where f is the angle of internal friction, determined in laboratory conditions and equal to the field indicator, hail; j and b.} are the principal stresses defined in the array, mPa, b) special (fractured massif) CT ff, (W. Sin-a. + (Xcos ccH- -), i .-. .  friction in the array and on the surface of weakening, when in some area Cm is the grip in the array on the surface of the weakening, MPa; f is the angle of internal friction over the surface of weakening, hail; a (45-f / 2) c) ordinary and special under the condition that the angles φ and φ of the inner-axle rock massif are equal; simultaneously, the following expression for determining the adhesion value C, the ordinary and special conditions of limiting equilibrium are satisfied  The following expression for the definition of coupling, see CObV + ig V cos (f-f2) c.osfif + 2py X со5ф-со5 (ф + 2р) .5ш2р}, where (i is the CORNER between the calculated sliding surface and the surface by weakening). „„;, „R.oou, nAcptprinpm m ggish equilibrium in the undisturbed array accurately determine the amount of adhesion of the rock mass. Using this method will provide a small volume of L J lT l 2 °. damage caused by landslide effects. Invention Formula The method of determining the strength properties of rocks, which consists in that a measuring well is drilled in the slope array, a sensor is installed in it, it is moved along the entire length of the well, and the location of the source of destruction of the array is determined, in order to increase the reliability determination of indicators of rock adhesion, the measuring well is drilled equidistantly on the slope sliding surface, in the latter additional vertical and horizontal measuring wells are drilled into the area of the center of destruction The values of principal stresses are measured in them, and the adhesion values of rocks are calculated, from which the strength properties of rocks are determined. (pus.g)