Annealing by short circuit

Annealing by short circuit is a method of efficiently annealing copper wire which employs a controlled electrical short circuit. It can be advantageous because it does not require a temperature-regulated furnace like other methods of annealing.

Process

The process consists of two conductive pulleys (step pulleys) which the wire passes across after it is drawn. The two pulleys have an electrical potential across them, which causes the wire to form a short circuit. The Joule effect causes the temperature of the wire to rise to approximately 400 °C. This temperature is affected by the rotational speed of the pulleys, the ambient temperature, and the voltage applied. Where ${\displaystyle t}$ is the temperature of the wire, ${\displaystyle K}$ is a constant, ${\displaystyle V}$ is the voltage applied, ${\displaystyle r}$ is the number of rotations of the pulleys per minute, and ${\displaystyle t_{a}}$ is the ambient temperature:

${\displaystyle t={\frac {KV^{2}}{r}}+t_{a}}$

The constant ${\displaystyle K}$ depends on the diameter of the pulleys and the resistivity of the copper.

Purely in terms of the temperature of the copper wire, an increase in the speed with which the wire passes through the pulley system has the same effect as a decrease in resistance. Therefore, the speed with which the wire can be drawn through varies quadratically as the voltage applied.

See also

• Annealing (metallurgy)
• Short circuit

References

• Thesis of Degree, Cable Manufacture and Tests of General Use and Energy. - Jorge Luis Pedraz (1994), UNI, Files, Peru.
• Dynamic annealing of the Copper wire by using a Controlled Short circuit. = Jorge Luis Pedraz (1999), Peru: Lima, CONIMERA 1999, INTERCON 99,