SU1382954A1 - Apparatus for determining the strain of crack formation in rock - Google Patents

Abstract

The invention relates to the mining industry and is intended to assess the state of rocks and other materials that have undergone mechanical stress. The purpose of the invention is to improve the accuracy of cracking. For this, the high-voltage electrode 3 is double-ended, electrically closed and fixed on opposite end surfaces of sample 2. The measuring electrode 5 is designed to wrap the side surface of sample 2 along the perimeter of the central part and is filled in the form of a ring. The guard electrode 6 encircles the side surface of sample 2 at its ends and is made in the form of two electrically closed rings. During cracking in the specimen caused by loading, the electric field redistributes, which is accompanied by an imbalance of the electric currents. The device allows to eliminate the errors in the determination of the mechanical stress of cracking, which arise from the coincidence of the directions of the electric current lines with the planes of the forming cracks. 1 Il. and

Description

05 OO GCHE

WITH

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This invention relates to mountain rock and can be used to assess the state of mountain poly and other materials that undergo uiKx. the impact of mechanical stress, namely, to determine the magnitude of the mechanical stress, with which the cracking begins.

The aim of the invention is to improve the accuracy of determination of cracking 4ov.

; The drawing shows an electrical 1 |: a diagram of a device for determining the stress of cracking. : The device contains a source of electric current I, the poles of which are connected to test sample 2, fdin through high-voltage electrodes 3, and the other through two ijjbie parallel circuits, one of which consists of a variable resistor and measuring electrode 5, and . The other is from a variable resistor 4 and a guard electrode 6, and a recording device 7, which is connected to measuring 5 and guard 6 electrodes. The high voltage electrode 3 is made point-to-point, electrically closed, fixed on opposite end surfaces of sample 2 and insulated with spacers 8. The measuring electrode 5 is made in the form of a salt, enclosing the side surface of sample 2 in its middle part. The guard electrode 6 is made in the form of two electrically closed rings that enclose the side surface of sample 2 at its ends.

The device works as follows.

Electrodes 3.5 and 6 are fixed on test sample 2 and connected to variable resistor 4, current source 1 and recording device 7 according to the electrical circuit shown in the drawing. Then sample 2 with insulating spacers 8 is inserted between the press plates, the surface and bulk currents are balanced by a variable resistor 4 (set O on the recording device

7) and begin to load the sample. During cracking in the test sample 2, caused by loading, the electric field is redistributed, which is accompanied by an imbalance of the electric currents flowing in the circuit, and recorded by the recording device 7.

The proposed device makes it possible to increase the measurement accuracy by eliminating the gaps in the determination of the mechanical stress of cracking, arising from the coincidence of the directions of the electric current lines with the planes of the forming cracks.

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Claims (1)

Invention Formula 0 A device for determining the stress of cracking of rocks, containing a power source, a registering device, high-voltage, guard and measuring electrodes, two parallel circuits, one of which consists of a variable resistor and a measuring electrode, and the other - of a variable resistor and a guard electrode, the recording device being connected to the guard and measuring electrodes, one source pole the power supply is connected to the tested rock sample through a high-voltage electrode, and the other through two parallel. chains are different By the fact that, in order to increase the accuracy of crack detection, the BBICO voltage electrode is made two-point, electrically closed and fixed on opposite surfaces of the sample, the measuring electrode is made in the form of a ring, and the guard electrode is made in the form of two electrically closed rings. the electrode is designed to grip the side surface of the sample around the perimeter in its central 0 parts, and the guard electrode - at the ends of the sample. five