DE1173189B - Process for the electrical formation of selenium rectifier plates - Google Patents

Description

Process for the electrical formation of selenium rectifier plates The invention relates to a method for electrically forming selenium rectifier plates.

It is already known to use direct current or alternating current for this purpose to use. Since both methods have advantages and disadvantages, one was created Combination of both methods applied. This combination consisted of the simultaneous Use of direct and alternating current by z. B. a pulsating direct current was used.

However, the known methods, including the combined method, have the disadvantage that they are, for. B. need a long Fonnierzeit. - The object of the invention is to make the forming process more economical and also to ensure greater security for the same quality.

This object is achieved according to the invention in that the formation the rectifier plates introduced with alternating current and terminated with direct current will. According to the method of the invention, there is no longer one simultaneous-- Application of direct and alternating current in application, but a temporally sharp one separate succession of alternating current and direct current.

The method according to the invention is based on the following considerations: The alternating current formation has the advantage that only a low initial formation current density occurs and generally only takes a relatively short forming time; on the other hand, it has the naghteil that a high final forming tension is necessary, what means an increased risk of breakdown for the plates. If you want to avoid this, so you have to accept the disadvantage of a lower forming capacity.

The direct current forination is advantageous because it becomes a leads to a relatively low final forming tension and therefore practically none There is a risk of breakdown; but it has the disadvantage that a large initial forming current density occurs, resulting in a reinforced design of transformers, rectifiers and lines which brings with it forining systems. In addition, it is in the direct current form a relatively long forming time is required.

If you now carry out the forming process according to the invention in such a way that the rectifier plates are first preformed with alternating current and then with direct current are formed, then one obtains a favorable union not only of the advantages both forming processes, but also a considerable shortening of the forming time and greater product quality.

The starting point for changing the two types of formation depends on the given conditions, i. i.e., it depends, among other things, on the type of selenium rectifier plates. In general, however, it can be said that after preforming with alternating current, direct current forination should begin when - assuming constant formation performance in each case - the advantages of direct current formation over alternating current forination can have an effect. The critical limit and thus the need to transition from alternating current to direct current is always reached when the level of the forming voltage in the case of alternating current formation approaches or reaches the breakdown voltage.

The diagram illustrates the method according to the invention. It shows the course of the forming voltage as a function of time - assuming a constant forming power of 1.5 W / CM2 - for direct current (curve G) and for alternating current (curve A) with subsequent direct current forination (curve B). After one and a half hours of pre-forming, the appropriate time has come to use direct current in order to avoid the increase in the forming voltage and thus the risk of breakdown. In the illustrated embodiment, plates with 6 V threshold voltage are involved. Investigations have confirmed that the same finding can be found for plates with different initial digits.

Claims (3)

Claims: 1. A method for forming selenium rectifier plates with alternating and direct current, d a - characterized in that pre-forging with alternating current and reforming with direct current takes place. 2. The method according to claim 1, characterized in that the alternating current formation is replaced by the direct current formation when the level of the formation voltage in the case of alternating current formation approaches or reaches the breakdown voltage. 3. The method according to claim 1 and 2, characterized in that the forming time is divided approximately in the ratio 1: 2 for alternating current and direct current. Documents considered: French patent specification No. 855 772.