Source: {"pile_set_name": "USPTO Backgrounds"}

Plasma arc torches are widely used in the processing (e.g., cutting and marking) of metallic materials. A plasma arch torch generally includes a torch body, an electrode mounted within the body, a nozzle with a central exit orifice, electrical connections, passages for cooling and arc control fluids, a swirl ring to control the fluid flow patterns, and a power supply. The torch produces a plasma arc, which is a constricted ionized jet of a plasma gas with high temperature and high momentum. The gas can be non-reactive, e.g. nitrogen or argon, or reactive, e.g. oxygen or air.
In process of plasma arc cutting or marking a metallic workpiece, a pilot arc is first generated between the electrode (cathode) and the nozzle (anode). The pilot arc ionizes gas passing through the nozzle exit orifice. After the ionized gas reduces the electrical resistance between the electrode and the workpiece, the arc then transfers from the nozzle to the workpiece. The torch is operated in this transferred plasma arc mode, characterized by the conductive flow of ionized gas from the electrode to the workpiece, for the cutting or marking the workpiece.
In a plasma arc torch using a reactive plasma gas, it is common to use a copper electrode with an insert of high thermionic emissivity material. The insert is press fit into the bottom end of the electrode so that an end face of the insert, which defines an emission surface, is exposed. The insert is typically made of either hafnium or zirconium and is cylindrically shaped.
While electrodes with traditional cylindrical inserts operate as intended, manufacturers continuously strive to improve the service life of such electrodes, particularly for high current processes. It is therefore a principal object of the present invention to provide an electrode having an insert configuration that improves the service life of the electrode.