SU483613A1 - Resistometric device - Google Patents

Description

one

The invention relates to the scope of physical research of metals and alloys.

A thermistor measurement device for measuring the dependence of the electrical resistance of the samples under study on temineurura is known, which contains a thermocouple, a constant current generator, a constant-voltage alternating current converter, and an Ovéguiein bridge, a two-dimensional automatic constant-current notemeter that limits resistance.

However, this device does not allow for the comparison of samples with relatively high current due to the presence of restrictive components, which does not allow for the investigation of low-resistance samples and does not provide heating of the samples with a measuring current.

For the purpose of discerning the indicated deficiencies, a current transformer and a rectifier are introduced into the proposed device, so that the primary winding of the current transformer is connected to the generator output in series with the sample under test, to the operating current circuit of the measuring circuit of the two-coordinate recorder through the rectifier.

The drawing shows a diagram of the proposed device. It consists of an alternating current generator 1, an inverter 2 alternating voltage into a constant, the output of which is connected to the input coordinate Y of a two-coordinate DC automatic potentiometer 3, a measuring current transformer 4, the primary winding

The generator is connected to the output of the generator 1 in series with the measured sample 5, and the secondary winding is connected to the rectifier 6, the output of which is connected to the power supply of the operating current of the measuring circuit of the Y coordinate of the nociometer 3.

The temperature of the sample under study is measured with thermocouple 7 homoeoids, the working end of which is welded to the sample top, and the free cogs are connected via an unbalanced bridge 8, which serves to eliminate the 1 and the temperature of the free ends of the thermonar, to measure the input to the coordinate of the core. .

The sample under study has 5 keys to the device but a four-step scheme. The current terminals are connected in series with the generator 1 and the primary winding of the measuring current transformer 4, and the notional

the terminals are connected to the input of the converter 2.

When the circuit is turned on, the voltage drop on the test sample 5 is fed to the input of the converter 2, is amplified, and after rectification, it is fed to the input of the coordinate Y

dvz coordinate potentiometer, where it is measured by the compensation method. The switching circuit of the Y coordinate is fed from the measuring circuit through the measuring current transformer 4 and rectifier 6, therefore the current oscillation in the sample will not affect the measurement result.

The proposed device allows samples to be examined both at relatively small, less than 1 A, and at large, on the order of 1000 A, currents. To do this, it is sufficient to use a multi-current measuring transformer with a primary winding designed for the desired current value and an appropriate power source. The increase in current during the testing of low-resistance samples does not require a significant increase in the power source power. Due to this, the proposed device can be used to study both relatively high-resistance and low-resistance samples.

The heating of the sample under investigation is carried out both with the help of a separate heater and due to the thermal effect of the measuring current.

Subject invention

A resistometric device containing a thermocouple, an alternator, an alternating voltage converter in

A constant, unbalanced bridge, a two-coordinate automatic DC potentiometer, characterized in that, in order to enable the study of low-resistance samples in a wide frequency range and sample heating by measuring current, a measuring current transformer and rectifier are introduced into it, the primary winding of the measuring transformer current connected to the generator output

in series with the sample under study, and the secondary winding through the motor is connected to the operating current circuit of the measuring circuit of a two-coordinate potentiometer.