SU769360A1 - Compensation wire - Google Patents

Description

one

The invention relates to the field of temperature measurement, in particular, to thermoelectric thermometry, and can be used to create a thermoelectrode across electrode compensation wires to a high temperature thermocouple having one electrode on TaC 07-09, i.e., a thermoelectric counterpart of this electrode.

A compensation wire is also known, made in the form of a composition of three elements, without electrical contact along the entire length and made of copper, aluminum and iron, respectively, with a ratio of the cross-sectional area of these elements 1: 1.8 -: - 2.2: 1,, 2 one.

However, this compensation cable cannot be used to compensate for the thermoelectric power of the free ends of a thermocouple, one of the branches of which is Carb tantalum TaC 0.7-0.9, since its thermoelectric characteristic differs significantly from the temperature dependence TaC 0.7-0. 9.

The closest to the technical essence is a compensatory irovod, made of an inhomogeneous composition in the form of two electrically contacting all length and made of copper-based alloys, one of

which contains weight. %: copper + 4,, 5 nickel -ЗЗ,, 1 manganese 2.

The disadvantage of this compensation line is not sufficiently accurate.

5 reproduction of the thermoelectric characteristics of the tantalum carbide electrode TaC 0.7-0.9 of the high-temperature thermonar and, as a result, the accuracy of temperature measurements of the indicated thermoelectric is low;

The aim of the invention is to improve the accuracy of measurements with a thermohara, employing one electrode of tantalum carbide TaC 0.7-0.9.

15 This goal is achieved by the fact that the second element contains, weight. %: copper + 0.5 - 0.7 nickel, with a ratio of the cross-sectional areas of the two elements of the composition 3.5 -; - 4.5: 1, respectively.

20 The triple Cn-N1-Mp alloy is a standard part of the KP MNMts 5 - 3.7 grade (TU-48-21-290-73) .- The non-composite composite compensation wire 1 produces a thermal emf of tantalum carbide

25 TaC 0.7-0.9 in the temperature range O-500 ° C with an accuracy of ± 0.04 mV. The table shows the thermopower values. composite thermoelectrodes nz elements made of alloys of composition, weight. % (by

80 him. analysis): copper + nickel 0.6

(Ix 0 0.15); KP MNMtsb alloy - 3.7 (4x 0 0.15). The brackets indicate the thickness of the wire in mm and the number of parallel wires of the same composition.

Note: Free ends at 0 ° C.

The composition can be made in the form of a twist of two elements of different thickness, or a twist of a different number of wires of each element having an equal thickness, or a bimetallic wire.

A prerequisite is the presence of electrical contact between the wires along the entire length of the composition, where there is a temperature gradient during operation.

The described compensation wire provides precision compensation of the thermopower of a carbide thermocouple with a thermal electrode TaC 0.7-0.9, even if there is a significant difference in temperature between the connections of thermoelectrodes of the main thermocouple and compensation wires.

The effect of the implementation of the invention lies in the fact that the implementation of the proposed compensation wire to the high-temperature thermocouple, one of the branches of which serves TaC 0.7–0.9 tantalum carbide, provides practical use of this carbide thermocouple, since

Computational wires cannot be used at all, since the commutation of carbide thermocouples in the measuring circuit is difficult due to the special mechanical properties of carbide thermoelectrodes (greater brittleness) and the impossibility of manufacturing carbide thermoelectrodes of sufficient length.

Claims (2)

1. The copyright certificate on application no. 2514930 / 18-10, cl. G 01 K 7/02, 08.08.77. 2.Certificate of Certificate No. 2676203 / 18-10, cl. G 01 K 7/02, 10/23/78 (prototype).