SU128518A1 - Thermocouple with a positive electrode from an intermetallic compound antimony-zinc and with a negative electrode from sulfur dioxide - Google Patents

Description

The known thermoelement with a positive electrode made of an intermetallic antimony-zinc compound and with a negative one made of sulfur lead has a low electrical conductivity and does not provide a sufficiently long-term operation of the thermoelement without an increase in the transition resistance between its electrodes.

In the proposed thermoelement, lead and bismuth impurities are introduced into the electrode material, which increases the electrical conductivity of the positive electrode while maintaining a small amount of thermal conductivity and provides good tinning. In the manufacture of a thermoelement, lead sulphide is preliminarily tinned with lead, bismuth or antimony in a reducing environment at a temperature of 700-800 ° C, which ensures the duration of the thermoelement operation without an increase in transient resistance between its electrodes.

The proposed thermoelement consists of lead sulphide and an intermetallic compound antimony-zinc with lead and bismuth impurities.

A portion of the thermoelement consisting of lead sulphide, hereinafter referred to as the lead sulphate half cell, is prepared in the form of a truncated triangular prism. This shape is given to the half cell in order to obtain a higher efficiency due to a more favorable ratio of thermal and electrical resistance of the half cell in the working state, i.e. when there is a temperature gradient of 350-400 ° at its ends.

Sulfur dioxide is prepared with an excess of lead up to 3% by direct synthesis of lead and sulfur, followed by melting.

The lead sulfide half cell is made by a metal-ceramic method (pressing followed by sintering).

No. 128518--2. In order to obtain a good electrical contact between lead sulphide and an antimony-zinc alloy, lead sulphide is preliminarily tinned in a reducing medium at a temperature of 700-800 ° lead, bismuth or antimony.

The alloy based on the intermetallic compound antimony-zinc used in the proposed thermoelement differs from the previously used antimony-zinc alloy by introducing lead and bismuth impurities into it, which increases its electrical conductivity while maintaining a small amount of thermal conductivity. In addition, it provides a good tinning of this alloy with lead, bismuth or tin.

An antimony-zinc alloy semi-element is made by direct alloying of zinc and antimony in a ratio of 30-35% zinc and 70-65% antimony with the addition of bismuth and lead in an amount of from 1 to 3% followed by casting into the corresponding earth forms.

The presence of well-tinned contact surfaces of the half-hue of lead sulphide and antimony-zinc alloy ensures the connection of these half-elements to a thermoelement without contact resistances.

Subject invention

Claims (2)

1. A thermocouple with a positive electrode from an intermetallic compound antimony-zinc and with a negative one from sulfur lead, is distinguished by the fact that, in order to increase the electrical conductivity of the positive electrode while maintaining a small amount of thermal conductivity, as well as to ensure a good tinning, the electrode material is introduced impurities of lead and bismuth. 2. A method of manufacturing a thermoelement according to claim 1, which is tl and h and w and so that, in order to ensure long-term operation of the thermoelement without increasing the transient resistance between its electrodes, lead sulphide is preliminarily tinned with lead, bismuth or antimony reducing environment at a temperature of 700-800 °.