SU150177A1 - The method of obtaining thermocouples from carbon-graphite materials - Google Patents

Description

The proposed method for producing thermocouples from carbon-graphite materials allows these thermocouples to be used at a high operating temperature and increases the stability of their parameters. To do this, a carbon-graphite bar is cut in length to produce two rods connected by a jumper at the end, which are heated in an inert gas atmosphere with a boron impurity to a temperature of about 1000 ° C, and then in an inert atmosphere and an atmosphere of chlorine to a temperature of 3000 °. After that, one of the rods is cooled with running water, and the second is treated with freon vapors at a temperature of 3000 ° until complete removal of boron particles from the rod material.

In addition, to simplify the technology of making thermocouples, it is possible for one of the rods to be cooled with running water and the other to be heated in an atmosphere of inert gas, for example, argon mixed with boron, to a temperature of 3000 °.

The proposed method is based on the property of carbon-graphite materials that do not enter into chemical interaction with elements up to a temperature of about 1000 ° C and the possibility of cleaning such materials from impurities contained in them when fluorine-chlorine compounds are placed in the medium and heated to temperatures above 1800 °. These properties are used to produce thermocouple rods with different impurity concentrations and, therefore, different physical properties. In this case, receive rods with different concentrations and signs of carriers, i.e. pn junction.

A carbon-graphite block of rectangular or circular cross-section is cut along the diamond disc and a jumper 10-15 mm thick is left at the end. Thus two rods are obtained.

Both rods are placed in a furnace in an inert gas environment with an admixture of boron and heated to a temperature of about 1000 °, then the rods continue to heat up to 3000 ° only in the Innert medium. After that, the rods are placed in an atmosphere of chlorine also at a temperature of up to 3000 °, with this being removed; of both rods of all impurities except boron. Next, one bar is protected from environmental exposure and heating (cooled with water), and the second is heated in an atmosphere of freon again to HEAT °; to ensure removal of boron from the heated rod; At that time, the second cooled core of boron remains and, due to this, the rods have different conductivities.

To simplify the technology of making thermocouples, one rod protects against the action of the medium and heating, and the second heats the D inert gas, such as argon, to 3000 ° C, thus achieving the same results as in the previous case.

Thermocouples obtained by this method can be used at operating temperatures of the order of 3000 °.

Subject invention

Claims (2)

1. A method of producing thermocouples from carbon-graphite materials, characterized in that, in order to increase the operating temperature of increasing the stability parameter терм in thermocouples, the carbon graphite bar is cut to obtain two sterols, which are connected at the end with a jumper and heated in an inert gas with a boron impurity temperatures of about 1000 ° C, and then in an inert atmosphere and in an atmosphere of chlorine to about 3000 °, after which one of the rods is cooled with running water, and the second is treated with freon vapors at a temperature of about 3000 ° until complete removal From the material of the rod of boron particles. 2. A method for producing thermocouples according to claim 1, characterized in that, in order to simplify the technology of making thermocouples, one of the rods is cooled with running water, and the other is heated in an atmosphere of inert gas, for example, argon with a boron impurity, to a temperature of about 3000 °.