SU80741A1 - Oxide cathode - Google Patents

Description

An oxide cathode is proposed, the core of which is made on a refractory metal coated with a roller and the corresponding alloy giving the greatest activation of the cathode.

In the known oxide cathodes, as the core for the cathode, alloys are usually used which give the greatest activation of the cathode (silicon-nickel, nickel-titanium, etc.). (Zdiaco alloys are significantly inferior in their mechanics: m and electrical properties of refractory metals like tungsten and molybdenum.

For this purpose, it is recommended that the core be made in the form of a wire (tape or tube) of refractory metal and covered outside with a suitable alloy.

The main refractory metal is chosen depending on the design and technological requirements of this type of device, i.e., according to mechanical properties, heat capacity, electrical conductivity, etc. Such metals can be tungsten, molybdenum, their alloys, etc.

The composition of the surface thin layer is chosen so as to obtain the required rate and temperature of thermal actuation of the oxide cathode, the corrosion resistance of the core and the emission coefficient of the cathode. For this purpose, alloys of metals such as copper, silver, gold, nickel, platinum, beryllium, magnesium, aluminum, silicon, titanium, etc. can be used.

The use of an oxide cathode on a tungsten core coated with a layer of aluminum bronze showed a complete absence of non-coaching, i.e. no emission lamps. For rapid thermal activation of oxide cathodes and a long service life, it is sufficient to have a reducing agent in a very thin surface-layer core. The proposed oxide cathode allows, in known limits