SU568879A1 - Thermo-electrodynamic force pickup - Google Patents

Description

one

The invention relates to means of non-destructive testing, and more specifically to the design of ibr sensors, designed to determine the chemical composition and structure of metal and alloys according to the value of thermo-emf.

Thermopower sensors used in TEDS-2 and TEDS-6 devices are known. The design of the sensor includes two electrodes, one of which is at room temperature, and the other is heated near the point of contact with the article being monitored. In the TEDS-2 device, the cold electrode and the non-heated end of the hot electrode are wired to the meter. In the TEDS-6 device, the hot electrode in the heated part is in contact with the atalol metal. In this case, the cold electrode and the cold end of the standard are connected to the measuring device.

The closest technical solution to the present invention is a thermopower sensor containing two electrodes and a heater 2.

These sensors have a common drawback, which is the occurrence of random electromotive forces in the measuring circuit caused by temperature fluctuations unmonitored during operation at the junction of electrodes with wires.

measuring device, reducing the accuracy of measurements.

The purpose of the invention is improving the accuracy of measurements. This is achieved by the fact that in the proposed sensor both electrodes, including the points of their connection to the wires, are placed in the heater, and the protruding part of one of the electrodes is equipped with a slit T, a cooling rod and a cooling. The working temperature difference of the electrodes in

The points of contact with the controlled product are provided by the creation of unequal heat transfer conditions in the electrodes, for example, by more intensive than natural cooling of one of the electrodes. For this, in the simplest case, annular grooves are made on the part of the electrode protruding from the heater, which reduce the thermal notes to the point of contact with the product being tested. Or in the same place install a heat dissipating radiator or refrigerator.

The drawing shows the structural scheme of the proposed thermopower sensor. In one heater 1, electrodes 2 and 3 are placed together with their connection points with wires 4. On one of the electrodes (for example, 2) annular grooves 5 are made to reduce the heat flux to the point of contact with the controlled article 6.

When the sensor is in operation, the electrodes 2 and 3 are brought into contact with the monitored item 6. The measuring device records the thermopower. According to its value, the chemical composition and structure of the material of the product are judged on the basis of preliminary calibration of samples with previously known parameters.

Electrodes 2 and 3 can be made replaceable from reference materials. When working with different materials of controlled products select a pair, giving PA these materials. To the greatest sensitivity.

Sensors made according to the proposed scheme can improve the accuracy of measurements of the characteristics of metals and alloys by the thermopower method. It is possible to create simple remote sensors of small dimensions.

Claims (2)

1. Factory laboratory, VIH, 1939, p. 1273. 2. Denel, A.K., Metal Flaw Detection, M., Metallurgists, 1972, p. 217 (prototype). ff l / 3Mept / Tf7e / liHOMt / n / atiSof / j