SU1373814A1 - Method of determining maximum strain in rock body about deep workings - Google Patents

Abstract

The invention relates to the field of mining industry. The purpose of the invention is to increase the reliability and efficiency in determining stresses. Drilling wells in the mountain range and taking measurements in them. Zones of rock disintegration are determined. The following is established: the dependence of g between the maximum stresses and the sizes of the disintegration zones. The wells measure the distance from the production contour to the farthest zone of disintegration. The maximum voltage in the array is then determined. This method can be applied for on-line diagnostics of the state and properties of rock mass. 1 il. (L

Description

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The invention relates to the mining industry and can be used in determining the maximum stresses in an array around a mine at great depths to ensure its stability. The method can be applied for the operative diagnostics of the state and properties of the rock mass, it is advisable to use it by the geomechanical services of the mining enterprises.

The aim of the invention is to increase the reliability and efficiency in the determination of stresses.

The drawing shows the production with the zones of disintegration of rocks formed around it, the section.

In the drawing, the following notation is accepted: 1 — production section contour, 2 — disintegration zones formed in the array around the excavation, 3 — wells drilled into the array to determine the distance from the production contour to the distant disintegration zone, 4 — far from the contour development of the zone of disintegration of the breed.

The method is carried out as follows.

From generation 1 into the massif perpendicular to the longitudinal axis of generation, at least two wells 3 are drilled, in which the locations of the rock disintegration zone 2 are determined with a probe or viewing device using the RVP device. experience, the length of the well 3 should take at least 3 diameters of production.

Then determine the value of the maximum stresses in the array by the formula

A 0, 0.75 C--),

where d is the maximum stress in

array, MPa; rock mass strength

compression, MPa;

1 — distance from the contour of development to the distant zone of disintegration, m;

g is the radius of generation, m. The method is carried out as follows.

Baseline: production (skirt drift) is carried out in strong hornfels. Rock strength in specimen

Jq 15

20 25

738IA2

for compression - 120 MPa. Research has shown that for mine rocks prog30

35 0

45

50

55

Compressiveness of array (s) is determined by the formula

.-3.9 ()

where 6 is the compressive strength according to test samples of the rock.

The depth of the work is I300 m, the cross section of the excavation is 12.5 m, the radius is 1.76 m. The development is carried out without fastening. Two wells are drilled into the sides of the development perpendicular to its longitudinal axis, the length of which, on the basis of experience, takes 9.0 m for a depth of 1300 m of the mine. The diameter of the well is 42 mm. Then, using the probe, they look at the wells and determine that on both wells the disintegration zone itself far from the production contour is on average 5.28 m. After that, the maximum stress in the rock mass around the production is determined according to the proposed formula:

 0, 0.75,

in which the initial data are substituted and receive 6, 5.6 MPa, from where 6 39.4 MPa.

Consequently, the voltages in the array at a distance of 5.28 m from the production contour are 39.4 MPa. Dp depth of 1300 m tension of the weight of rocks H. 1300 -0.025 32 MPa.

Thus, in this case, the maximum stresses exceed the stresses from a depth of 1, 23 times.

Claims (1)

Invention Formula The method for determining the maximum stresses in a mountain range around the workings at great depths, including drilling wells in the mountain massif, measuring measurements therein, determining rock disintegration zones and establishing a relationship between the maximum stresses and the size of the disintegrating zones, characterized in that In order to increase the reliability and efficiency in determining stresses, the wells measure the distance from the production contour to the farthest zone of disintegration, and then the max. 0.35 0.75 --- |, maximum stresses in the array, MPa; compressive strength of rock mass, MPa; distance from the contour of development to the far zone of disintegration, m; working radius, m ..-; - v .. .