SU1420548A1 - Method of measuring specific resistance - Google Patents

Abstract

The invention relates to electrochemistry, in particular, to a technique for measuring the resistivity of solid electrolytes with conductivity over sodium ions and controlling their electrical properties. : | The purpose of the invention is to increase the accuracy of measuring the resistivity of samples of sodium polyaluminates; this is achieved by reducing the contact resistance of the needle-like probe. The method is based on the use of the well-known four-zone-die method for measuring the resistivity of semiconductor materials on alternating current under certain conditions and modes j given in the description of the invention, which provide an increase in measurement accuracy.

Description

The invention relates to electrochemistry, in particular, to methods for measuring the resistivity of solid electrolytes with conductivity over sodium ions and controlling their electrical properties.

The purpose of the invention is to increase the accuracy of measuring the resistivity of sodium polyaluminate samples by reducing the contact resistance of the needle-probe sample.

The method for measuring the resistivity of sodium polyaluminate samples is based on using the well-known four-probe method for measuring the resistivity of semiconductor materials on an alternating current. When applying the known method, the required accuracy of resistivity measurement for samples of sodium polyaluminates is not provided, since the commonly used temperature modes of measurement and materials for probes give very high values of probe-contact resistance of the sample (more than 1Q -TEM at t 20-300 ° C) . This causes a very high level of thermal noise when measuring the voltage on potential probes, which leads to significant errors in the measurement of resistivity. It was experimentally stopped that using silver as probes as a material and measuring at a temperature of 200-950 ° C can reduce the contact resistance of a probe — a sample by 2–4 times, which leads accordingly to an increase in the measurement accuracy of resistivity, Silver

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Different electrodes are blocking for polyaluminates, however, as the temperature rises above 200 ° C, a sharp decrease in the contact resistance is observed, which makes it possible to increase the measurement accuracy. The upper limit of the temperature range (950 ° C) is determined by the melting point of the silver from which the probes are made. The voltage applied to the current probes should not exceed 2.5 V zff, since with a higher voltage a sharp increase in the contact resistance is observed at the contact points of the current probes with the sample due to polyaluminate: sodium burnout. This leads to fluctuations of the current flowing through the sample, which reduces the measurement accuracy.

Claims (1)

Invention Formula A method for measuring the resistivity, which includes placing four metal needle probes on the sample surface, measuring the voltage between one pair of probes when passing a given amount of alternating current through another pair of probes, calculating the resistivity from the measured values of voltage and current, that, in order to improve the accuracy in measuring the resistivity of sodium polyaluminate samples, needle probes are made of silver, and the measurement is carried out at the sample temperature 200-950 C, while the voltage between the current probes does not exceed 2.5 V rf.