SU712691A1 - Method of manufacturing differential strain-gauges - Google Patents

Description

one

The invention relates to a measurement technique, in particular, to methods for manufacturing differential strain gauge transducers based on constantan thermistors.

A device is known that contains two differentially connected strain gauges with temperature coefficients of the same sign 1.

A disadvantage of the known device is that it has a low measurement accuracy.

There is also known a method of manufacturing differential strain gauges based on thermistors from constantan by combining two thermistors with opposite temperature coefficients 2.

This method is closest to the invention in its technical essence and the achieved result.

The disadvantage of this method is that the difference in the absolute values of the temperature coefficients of the thermistors is not excluded.

The purpose of the invention is to increase accuracy by eliminating differences in the absolute values of the temperature coefficients of the thermal resistors.

For this, in the method of manufacturing differential strain gauges based on thermistors from constantan by combining two thermistors with

temperature coefficients of opposite signs, one of the thermal resistors is made by annealing a constantan wire with, and the other by annealing the same wire with

480 ° C for 2 hours

Getting opposite in sign temperature coefficients of resistance of thermistors made of

wire of the same brand, is achieved by the mode of annealing wire. One thermistor is made of constantan wire by annealing in air prp200 ° C for 2 h (temperature coefficient

resistance p -47-10 1 ° C, strain-response coefficient 5 2.20 ± ± 0.015 at a temperature from -40 to + 70 ° C), and another thermistor - at 480 ° C for 2 h (p 52-10-MGS , 5 2.21 + 0.010

at a temperature of from -40 to + 70 ° C).

The linear temperature expansion coefficient of the wire is 14-10 1 / ° C.

The drawing shows a device for implementing the method.

On the metal substrate 1, a thermistor 2 of constantan is glued with a temperature coefficient of resistance - | -30-10 1 / ° C and a coefficient of theis sensitivity 2,14 and a thermistor 3 of constantan with a temperature coefficient of resistance of -130-10-1 / ° С and a stress-sensitivity coefficient 2.15. The base 4 of thermistors 2 and 3, which are included differentially, is made of BF-2 adhesive film. Thermistors 2 and 3 are covered with heat-resistant paint with a thickness of 0.15 mm.

The invention makes it possible to eliminate the difference in the absolute values of the temperature coefficients of the thermistors and thereby increase the accuracy of measuring the temperature of the object surface.

J.

F about {Um ula invention

Method of manufacture. differential strain gages on the basis of thermoresis from koistitan by connecting two thermal resistors with the oppo rial ip sign and thermal coefficient coefficients, characterized in that, in order to improve the accuracy and without eliminating any differences in the absolute x temperature coefficients, one of the thermoresistors has made the components and 200 ° C, and the other - by annealing the same wire at

480 ° C for 2 hours

Sources of information taken into consideration and exertizis

1. Ilyin Yu. S. Low-inertia reception of HtiK radiant heat fluxes. Proceedings

TsAGI, issue. 1599, 1974, p. 57.

2. USSR author's certificate Lo 144306, cl. G 01K 7/18, 1962 (prototype).

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Claims (1)

A method of manufacturing differential strain gauges based on constantan thermistors by connecting two thermistors with opposite but opposite temperature coefficients, characterized in that, in order to improve accuracy by eliminating differences in absolute values of temperature coefficients, one of the thermistors is made by annealing a constantan wire at 200 ° C, and the other by annealing the same wire at 480 ^s C for 2 hours.