Precision CNC Plasma Cutting

When combined with the gas, the arc from the power supply results in a plasma jet reaching a maximum temperature of 40,000°F. This jet then passes through an alloy copper nozzle, allowing the torch to cut through any conductive material.

The plasma torch itself entails the following components:

• An electrode connected to the negative side of the power supply
• A nozzle connected to the positive side of the power supply
• A gas baffle used to swirl the gas

The actual cutting process begins by sending a start input to the plasma system. After starting the power supply, the system places a negative voltage on the electrode located within the plasma torch. The gas then begins to flow to the torch while the baffle begins to swirl it.

During plasma cutting, swirling the gas provides maximum cutting efficiency and quality. Facilitating swirling typically involves injecting water where the arc exits the nozzle, further constricting the arc. The temperature of the water used to swirl the gas should not exceed 70°F.

Closing the nozzles in the next stage of the process allows the gas to connect to the power supply’s positive side. A high-frequency generator then causes a spark to pass between the nozzle and electrode, ionizing the gas. The pilot arc begins to flow between the electrode and nozzle, the gas flow blows the arc out of the nozzle, and the pilot arc makes contact with the material to be cut. After the main arc increases power to the cutting amperage, the shield gas restricts the plasma arc to ensure a neat cut.