DE1025998B - Process for the production of oxide cathodes for electron tubes - Google Patents

Description

GERMAN

The cathodes of the electron tubes are usually supported by a metal carrier (usually a nickel or Tungsten alloy) formed with an alkaline earth oxide layer (usually barium, strontium or Calcium) is coated. These oxides are either immediately in their final form on the Cathode attached or in the form of alkaline earth compounds that are formed during treatments of the electron tube convert into the oxides during manufacture. Most used connections are carbonates and oxalates.

The invention aims to increase the activity of the cathodes, i. H. the electron emissivity of the cathodes, to increase and / or regulate.

It relates to a process for the production of the cathode, in which sodium in a certain amount is inserted into an alkaline earth compound.

In a process for the production of oxide cathodes for electron tubes, in which an alkali metal is inserted into an alkaline earth compound, according to the invention, when using a pure alkaline earth oxide as the starting material, an amount of about 7-10 ¹⁷ to 7-10 ²⁰ sodium atoms is inserted per cubic centimeter of alkaline earth oxide, or if another pure alkaline earth compound is used, the respective proportions are chosen in such a way that, after the compound has been converted into alkaline earth oxide, the stated amount of sodium atoms is contained therein per cubic centimeter of the oxide.

An amount of about 7 · 10 ¹⁸ to 7 · 10 ¹⁹ sodium atoms is preferably inserted per cubic centimeter of alkaline earth oxide.

These quantities are calculated prior to venting the tube. During venting and the rest of the time Treating the tube will reduce the amount of sodium in the cathode.

If alkaline earth carbonates or oxalates are used as the starting material, the different must be specified The volume of these substances, which later supply the oxides, can be calculated in order to determine the quantity of the substances to be imported Determine the amount of sodium.

For example, by means of an isotope separation device or some other device made pure barium oxalate, in which a certain amount of sodium carbonate was introduced in this way that an amount of sodium between 100 and 10,000 parts per million parts of barium oxide is obtained will. The cathodes are covered with the product obtained, and then the tubes are put on treated in the usual way.

The addition of sodium significantly improves electron emission, which is probably due to an improvement in the conductivity of the oxides. Investigations have he method of manufacture
of oxide cathodes for electron tubes

Applicant:

NV Philips' Gloeilampenfabrieken,
Eindhoven (Netherlands)

Representative: Dr. rer. nat. P. Roßbach, patent attorney,
Hamburg 1, Mönckebergstr. 7th

Claimed priority:
France 23 June 1954

Madeleine Berthaud, Paris,
has been named as the inventor

showed that with an added amount of 7 · 10 ¹⁷ to 7 · 10 ²⁰ i \ ^T atrium atoms per cm ^{3 of} barium oxide, the emission is at least five times the emission of the pure oxide. With the addition of about 7 · 10 ¹⁸ to 7 · 10 ¹⁹ sodium atoms, an emission is obtained which is 30 to 50 times higher than that of the pure oxide.

The sodium carbonate can be introduced into the barium oxalate in the following ways, for example:

The barium oxalate is mixed with the sodium carbonate, followed by the metal support forming the cathode with the powder obtained by this mixture using a suitable binder (For example, twice in quartz vessels distilled water] is smeared. The whole thing becomes one Subjected to sintering by heating the cathode, the two salts decompose and one remains sintered amount of barium oxide containing sodium. It is also possible to add the powder mixture through it obtained that a barium oxalate suspension is assumed to which a sodium carbonate solution has been added will; the mixture is dried in a dryer and crushed.

Claims (2)

Patent claims: 1. Process for the production of oxide cathodes for electron tubes, in which an alkali metal is inserted into an alkaline earth compound, characterized in that when used of a pure alkaline earth oxide as starting material per cubic centimeter of alkaline earth oxide 709 909/316 3 4 Amount of about 7 10 ¹⁷ to 7 10 ²⁰ sodium 2. The method according to claim 1, characterized in that geatomen is inserted or that, when used, indicates that per cubic centimeter of alkaline earth another pure alkaline earth compound the peroxide is inserted in an amount of about 7 · 10 ¹⁸ to 7 · 10 ¹⁹ Naweiligen quantitative ratios of such chosen trium atoms. become that after conversion of the compound 5 in alkaline earth oxide per cubic centimeter of oxide. the stated amount of sodium atoms herein German Patent No. 441,426,581,872. is included. 647 992, 857 532. © 709 909/316 3.58