DE488685C - Process for the production of highly conductive points on bars made of silicon carbide-containing resistor mass - Google Patents

Description

Process for the production of highly conductive points on bars made of silicon carbide containing Resistance mass Around resistance bars, which consist of a mass containing silicon carbide, To make more conductive at their ends, according to the invention between the rod end and another electrode, an arc is formed in a silicon vapor-containing one The atmosphere.

The improvement in conductivity at the ends of such rods has primarily the purpose of facilitating the power supply to the bars and at Heating rods simultaneously lower the temperature at the ends of the rod to achieve. By the; new processes will make the conductivity in particularly easier and safely increased. The effect is based on the fact that the rod is partly through the passage of current, partly heated by the arc and upon reaching a certain temperature silicon vapor is absorbed, so that after a very short time adopts higher conductivity at the treated area.

Just as one treats a rod end, one can of course also treat any one Treat another part of the rod where higher conductivity is to be achieved.

The easiest way to get the silicon vapor atmosphere is to use the Arc forms between the resistance rod and a silicon body. The silicon body ex is expediently used in the form of a melt,. in which you then have to the rod to be treated only needs to be immersed, followed by pulling out the rod an arc is formed from the melt. If there is a risk of that too large amounts of the silicon vapor formed to silicic acid due to the ingress of air burn, special precautions will be taken to keep the air out. It is best to exclude air access by means of a suitable bedding, which the Contact point surrounds. But you can also choose the bedding so that it silicon vapors developed even under the influence of the heat of the arc. Such bed ounces are well known per se; you can z. B. consist of sand and coal. Used If you have such a bedding, then you can advantageously form two resistance bars of the arc, both of which have better conductivity at their ends at the same time will. The best way to do this is to first place the two rods together brings them into contact until they are strongly heated by the current passing through them and only then forms the arc by pulling the rods apart a little. The heating is expediently done with such a high current that the Rods are heated at their point of contact to close to their decomposition temperature. One can also proceed in such a way that the rod ends are actually up to the decomposition temperature lets heat, _ where. then the arc spreads out itself educates. However, this method generally eliminates some uncertainty so that it is usually preferable to pull the bars apart for production, as soon as the most favorable temperature is reached, what, with otherwise the same conditions, occurs after a certain time to be determined by experience. One can For example, the bars that are in contact with one another initially except for light ones Heat red heat, then pull the rods apart so that an arc is created and then increase the current strength again. After a few minutes are then the ends of the rods are largely silicated.

If tubular rods are used, it is advantageous to use the treated pipe end an insert body made of silicon carbide-containing resistance compound to attach. This ensures a more even treatment in the arc and at the same time increases the conductivity of the end. It is advantageous to use the Manufacture insert body from a resistance mass, the higher conductivity possesses than the rod itself. Especially with pipes with a relatively large wall thickness and small bore is the use of such high conductivity insert body appropriate. You can then easily conduct the heating in the arc in such a way that the insert body is welded to the pipe so that good contact is ensured will. At the same time, the pipe ends treated in this way also form a much better one Protection against mechanical bending damage to the pipe.

Claims (1)

PATENT CLAIMS: i. Method for producing highly conductive points on rods made of silicon carbide-containing resistance compound, characterized in that an arc is formed in an atmosphere containing silicon vapor between the rod part to be treated and another electrode. a. Method according to claim i, characterized in that an arc is formed between the part of the resistance steel to be treated and a silicon body. 3. The method according to claim 2, characterized in that the point to be treated of the resistance rod is immersed in a melt of silicon, whereupon an arc is formed by pulling the rod out of the melt. q .. The method according to claim i, characterized in that the arc is formed in a bedding which develops silicon vapors due to the heat of the arc. 5. The method according to claim i, characterized in that two resistance rods are brought into contact with each other and the contact point is surrounded with a bedding compound which develops silicon vapor in the heat, whereupon the two rods are heated by passing a current and then pulled apart to form an arc. 6. The method according to claim i, characterized in that tubular rods are used which contain an insert body made of silicon carbide-containing resistance mass at their ends. 7. The method according to claim 6, characterized in that an insert body is used which has a higher conductivity than the resistance mass of the pipe. B. The method according to claim 6, characterized in that * the heating in the arc is conducted in such a way that the insert body is welded to the tube.