SU574869A1 - Material of electrodes for high-temperature oxidation of heating member - Google Patents

Abstract

The use of chromite monovalent copper as the material of the electrodes for a high-temperature oxide heating element. ^^ SLL ^ • '• ^^^ ШР ^ U: sl * slluСХ) с ^ с

Description

The invention relates to the field of electrothermal, namely, the material of the electrodes for high-temperature oxide heating elements intended for use in furnaces with an oxidizing atmosphere.

A known electrode material for a high-temperature oxide electric heating element, consisting of zinc oxide and an additive in the form of zirconium dioxide.

However, the high volatility of such a material at temperatures above 1200 ° C leads to evaporation of zinc oxide 15 and disruption of the electrical contact of the electrode with the heating element during operation of the latter.

In addition, due to the low 20

The electrical conductivity of zinc oxide electrodes in contact with the heating element is heated to the temperature at which the eutectic liquid phase is formed, as a result of which contact between the heating element and the electrodes is broken.

Platinum was widely used as the material of the electrodes for high-temperature oxide electric heating elements.

However, platinum has a melting point of 1770 C. and at a temperature of the working part of the heating element 2000 ^nd C. elements of the contact area with electrodes 35 that develops the temperature to 1800 ° C, resulting in a platinum melting violation occurs electrical contact. This does not allow to raise the temperature in the working space of the furnace above 2000 C with any design of the heating element, although the refractoriness of the material of this element allows its use at much higher temperatures.

At temperatures above 1600 ° C, platinum begins to evaporate rapidly, which leads to the failure of the electrodes. X

The manufacture of electrodes in the form of massive bodies would lead to a significant increase in their cost and the impossibility of using high-temperature oxide heating elements on a large scale.

The aim of the invention is to increase the operating temperature of the high-temperature oxide heating element and increase the reliability of the electrical contact of the heating element with the electrodes. For this purpose, chromite of monovalent copper is used as the material of the electrodes for the high-temperature oxide heating element.

! The manufacture of electrodes for high-temperature monovalent copper chromite oxide heating element allows to increase the operating temperature of this element to 2200 ° C, since chromite of monovalent copper can withstand temperatures up to 1950 ° C in the contact zone of the heating element with electrodes, which was not previously known.

In addition, the invention makes it possible to manufacture electrodes in the form of massive bodies on a large scale, since chromite of monovalent copper has a low cost. This increases the service life of the electrodes and the reliability of high-temperature oxide heating elements.

The main advantage of the invention is the possibility of replacing the expensive platinum, from which electrodes are made, with chromite monovalent copper, which has a low cost, with a simultaneous improvement in operating properties, which gives a great economic effect. In addition, such a replacement makes it possible to produce large-size electrodes, which will allow the use in industry of large-size high-temperature heating elements and furnaces based on them.

Claims (2)

The use of chromite monovalent copper as the material of the electrodes for high-temperature oxide heating element. > one 574869 2