SU1696903A1 - Compensation conductor for high-temperature thermocouple - Google Patents

Abstract

The invention relates to thermometry and allows improving the accuracy of TEGP compensation for the free ends of platinum (palladium) rhodium-palladium (gold) platinum thermocouples in the temperature range of 0-700 ° C. In the compensation wire, the positive electrode is made in the form of twisting of three conductors with a given area ratio cross sections of alumel, cobalt alumel and nichrome, respectively. The negative electrode of the compensation wire is made of an alloy of nickel-copper with a certain ratio of components.

Description

The invention relates to the field of thermometry and can be used to create compensation wires for high-temperature thermocouples.

The purpose of the invention is to improve the accuracy of compensation of the temperature of the free ends of the thermocouple platinum + 38 wt.% Palladium + 5 wt.% Rhodi (SPR, positive electrode) - palladium + 37 May. % gold + 8 May. % platinum (PPP, negative electrode) in the temperature range 0-700 ° C.

The compensation wire for a PPR-PPP thermocouple contains a positive electrode in the form of twisting of three conductors, one of which is made of nichrome, the second is made of alumel, and the third is made of cobalt-alumel alloy, with a ratio of the cross-sectional area of the conductors respectively 2.7-3.3: 1.4-2.6: 1, and the negative electrode from an alloy, wt.%: Copper 23-26, Nickel the rest,

The limits of the ratios of the cross-sectional areas of the conductors were established on the basis of compensation with a probability of 0.95 random oscillations of the TEC and electrical conductivity of the components of the composition of materials at 700 ° C.

The positive electrode of the compensation wire can be made in the form of twisting conductors of different thickness (each material is in the form of one wire) or twisting of a different number of wires of each material, having approximately equal thickness, or in any way ensuring the constant ratio of the cross-sectional areas of the elements and the presence of electrical contact between them along the entire length.

The maximum systematic error of total compensation when using the proposed compensation wire in the temperature range Oso

with

oh oh

H)

about

with

3 16969034

Claims (1)

700 ° C does not exceed 0.14 mV (3.5 ° C), which is from an alumel alloy, and the second from an alloy is 0.3% of the integral thermoelectric power factor for cobalt alumel, which differs from the upper working limit of temperatures because in order to increase the accuracy of the PPR-PPP com- puter, and is within the range of TEPL of the free ends of the measurement thermal error .5 pairs of platinum, palladium, rhodium - palladium, The proposed compensation gold, platinum in the temperature range of 0- water allows you to save precious 700 ° C , in it the third conductor is a positive metal, from which it is made on the high electrode is made of nichrome, and the temperature thermocouple. The negative electrode is made of nickel alloy Formula 10 - copper, in the following ratio: Compensation wire for high components, wt.%: copper 23-26, nickel and temperature thermocouple containing, the area ratio is a positive electrode in the form of a twist-cross-section of conductors made of ni- conductors with different area of pope-chrome, alumel and cobalt alumel of the cross-section, one of which is made 15 2.7-3.3: 1,4-2,6: 1.