DE1080833B - Process for producing a solderable glass bushing with molybdenum conductors - Google Patents

Description

Method for producing a solderable glass feedthrough with molybdenum conductors It is an important requirement of carrier frequency communications that a mutual There is no modulation between the individual message channels. This harmful Modulation can be achieved by non-linear elements that are present in the course of lines are traversed by multi-wave currents arise. Even with insulated with glass Conductor feedthroughs as used for the hermetic sealing of structural units this problem occurs when the feed-through electrode runs out a magnetizable alloy. Now there are only a few metals that on the one hand are not magnetizable and on the other hand fuse with glass permit; this subheading includes platinum, molybdenum and tungsten. For reasons of glass technology, with regard to the mechanical workability as well as for price reasons is suitable especially molybdenum for this purpose.

However, when using molybdenum, the. Disadvantage to that molybdenum difficult to solder; it cannot be tinned well either, which would be a possibility in order to be able to solder the jumper wires to the electrode in the usual way. Galvanic Coatings peel off molybdenum very easily.

It has already been proposed, one made of tungsten or molybdenum to make existing body solderable that on the refractory body a bead of molten nickel is applied and the copper wire is attached to this Melting temperature is inserted. However, this procedure is very cumbersome; because it can practically only be carried out individually, and this is suitable Joining process also does not have to be carried out on the running assembly line like it in the production of electrical equipment is applied to the numerous Making solder joints progressively from one workstation to the next.

According to the invention, a glass bushing will now be described, the The central conductor is made of molybdenum and is nevertheless light and durable can be soft soldered. One proceeds in such a way that the molybdenum electrode is melted down is copper-plated, which is expediently done by galvanic means. This copper coating does not adhere well; in order to eliminate this disadvantage, this galvanically copper-plated one is used Molybdenum part of a heat treatment in the protective gas, in which the copper by a Partial warming that is driven to just below the melting point of copper diffused into the molybdenum. The copper coating obtained in this way works perfectly conductive, firm bond with the molybdenum, so that then also a firmly adhering bond Tin-plating of the electrode melted in glass is possible. The copper plating the glass fusing is quite conducive to how one can get this out of the fusing from copper sheathing wire in glass parts from the manufacture of incandescent lamps.

The present way of treating molybdenum electrodes is natural also applicable to all other types of Mölybden-glass fusions; where good solderability of the molybdenum is important. Although it is convenient that Copper plating on the molybdenum body, to be applied by galvanic means, understands it turns out that other types of orders can also be used.

Claims (1)

PATENT CLAIM: A method for producing a solderable glass bushing which has a conductor made of molybdenum which has a coating made of a solderable metal, characterized in that a coating made of copper is applied by galvanic means and followed by a subsequent to just below the melting point of the copper going heat treatment with the molybdenum is intimately and firmly bonded, whereupon the; thus obtained conductor body is fused in a known manner with a pressure glass body. Documents considered: German Patent No. 501792; Swiss patent specification No. 123 770.