SU1562824A1 - Device for determining impedance of electric engineering asbestos materials - Google Patents

Abstract

The invention relates to a measurement technique and can be used to control asbestos electrical materials. The purpose of the invention is to improve the measurement accuracy. A device for determining the impedance of electrical asbestos materials contains an alternating current source, two current electrodes, two gaskets of porous, electrolyte-impregnated material, two potential electrodes made of a grid, a voltage meter on the potential electrodes, a compression device. The optimal ratio of the geometric dimensions of the structural elements is given. The purpose of the invention is achieved by reducing the influence of potential electrodes on the current path. 1 il.

Description

The invention relates to a measurement technique and can be used to control asbestos electrical materials.

The aim of the invention is to improve the measurement accuracy.

The drawing shows the device, a longitudinal section.

The device contains current electrodes 1 and 2, gaskets 3 and 4, potential electrode 5 with potential output 6, compression device 7 and electrical measuring circuit 8, second potential electrode 9 with potential output 10. The material is indicated with position 11, potential electrodes are equipped with gas outlets 12 and 13.

The device works as follows.

During the preparation of the device for operation, current electrodes 1 and 2, for example, made of nickel or stainless steel, are connected to an alternating current source with a frequency of 0.3–40 kHz, and conclusions 6 and 10 of potential electrodes are connected to an electronic voltmeter. During the assembly of the device, the gaskets 3 and 4 and the object 11 of the control are impregnated with electrolyte (aqueous solution of caustic potassium) and placed symmetrically relative to the vertical axis of the device. Turn on the AC source. The magnitude of the flowing current between the traction electrodes 1 and 2 and the steady state voltage drop of the meldu made of nickel or stainless steel and measured 9 are measured in the electrical measuring circuit 8. Then, using the formula

SP

ABOUT

EE

00

R - H. S 1I u

where U is the voltage drop across the sensors, B; I - the amount of current flowing

between electrodes, A; S is the area of the measured diaphragm, cm2,

R (, resistance, ohm-cm determine impedance.

As shown by the results of an experimental study of the dependence of the resistance of the object being measured depending on the ratio of the sensor areas and the current electrode, the thickness of the object being measured to the electrode diameter, the wall thickness of the electrode and the object to be measured, the thickness of the potential electrode AND in the area of certain size ratios (see ) a stable region of minimum resistance of the measured object is observed.

Thus, the proposed device provides the possibility of obtaining well reproducible results for materials having a relatively low resistance value. At the same time, the influence of such factors as the shielding of the surface of the measured diaphragm by sensors and the influence of current electrodes while removing electrical characteristics is practically eliminated.

Claims (1)

Invention Formula Apparatus for determining the electrical impedance of asbestos materials containing current electrodes, gaskets of a porous material impregnated with electrolyte, a potential electrode, a device for compressing and an electrical measuring circuit, characterized in that, in order to improve the measurement accuracy of materials with a porosity of 60-85%, it is additionally equipped with a second potential electrode originally, both potential electrodes are made of a grid and are equipped with exhaust channels, the thickness of the potential electrode being 0.5-0.2 distances between potential electrodes, n the potential electrode electrode is 0.16-0.7 square of the current electrode, the grid potential of the potential electrode is 0.02-0.2 the distance between Q potential electrodes, the distance between potential electrodes is 4, -11, the area of the current electrode. 6 years. s ten I ft 9