DE1256505B - Process for the electroforming production of waveguide components with a lost core - Google Patents

Description

Process for the electroforming production of waveguide components with lost core The invention relates to a method for electroforming Manufacture of waveguide components with lost, from a bismuth-lead-tin-indium alloy existing core.

For the manufacture of waveguide components on galvanoplastic Essentially two methods are known. The one method where one permanent stainless steel core, the component is electroplated, has the advantage that a very good surface quality can be achieved with it, which is also the highest Requirements of the surface quality of the inner surfaces of the waveguide component and also in terms of its dimensional accuracy is sufficient because the core surface without difficulties can be edited accordingly. The effort required for this is justified, because such cores can be used over and over again. This method sticks however, the disadvantage that it is only used to produce components that are relatively simple in shape can be, from which the core is pushed out after the electroplating process can be.

However, when it comes to the production of complex-shaped components with undercuts, recesses, projections, etc. is the other To give preference to manufacturing processes with a lost core. This becomes the core made of a material with a low melting point after electroplating from the component melted out.

There have already been attempts with cores made of a metal alloy with employed an extremely low melting temperature. For this purpose, a well-known and metal alloy of bismuth-lead-tin-indium recommended for core production is used, however, attempts with such have led, in and of themselves, with regard to his core material suitable for its low melting point and its excellent surface quality therefore to an unsatisfactory result, because the bismuth-lead-tin-indium alloy connects to the galvanized material and also melts out cannot be completely removed from the electroplated component. A mechanical one Cleaning the inner walls of the waveguide component is neither economical nor technically sensible. Appropriate pretreatment with a plastic coating of the core leads because of the high demand for dimensional accuracy of the waveguide parts to no satisfactory result.

This disadvantage is eliminated by the method according to the invention, and the manufactured parts have accuracies that were previously only possible with great effort were to be reached.

The invention is characterized in that the component in several Layers are electroplated onto the core, the inner and outer layers consists of silver, and after removing the core the component to eliminate the Core residues are rinsed with aqua regia heated to around 50 ° C and then rinsed is treated with concentrated hydrochloric acid heated to about 50 ° C.

The production of a waveguide component according to the invention Procedure is explained in more detail below.

The core intended for the component with an extremely low melting temperature and the required surface quality, that of a bismuth-lead-tin-indium alloy exists, is prepared in a manner known per se for electroplating.

The application is first carried out in a silver bath of the usual composition a 10 g thick layer of silver. The actual Component galvanized as a 1.7 mm thick copper layer. On this copper layer Finally, a 10 @t thick layer of silver is placed in the already mentioned silver bath applied so that the copper is completely embedded in silver. To achieve a smooth surface, it has proven to be advantageous to galvanize the To move part of and to the anodes and thus permanently its distance to the anodes to change.

This component produced by multilayer electroplating becomes the core melted out and the core residues by aqua regia heated to about 50 ° C dissolved. Any remaining residues can be heated to 50 ° C Rinse hydrochloric acid from the component.

Claims (1)

Claim: Method for the electroforming production of waveguide components with a lost core consisting of a bismuth-lead-tin-indium alloy, thereby characterized in that the component is electroplated onto the core in several layers with the inner and outer layers made of silver, and after removal of the core the component to remove the core residues with heated to about 50 ° C Aqua regia and then rinsed with concentrated water heated to around 50 ° C Hydrochloric acid is treated.