High Definition CNC plasma cutting systems use computers on machines to create the shapes to be cut and control the cutting machine movement and gases. The resulting shapes are smoother and more complex and accurate than would be possible with a hand plasma torch, and can include intricate curves, inside cuts, and sharp corners.
HD CNC plasma cutting also provides near laser quality cutting at a fraction of the time and effort usually required by traditional oxy cutting. It is designed for high speed, accuracy and large capacity cutting of material.
Machine | Material Thickness | Size |
CNC High Definition Plasma Cutter | up to 25mm | 2.5m x 6 metres |
Hand Plasma Cutting | up to 30mm | |
Oxy Cutting | up to 50mm |
If you want a Fast, clean and with a minimum of fuss cutting solution, Plasma Cutting is a high speed/low cost cutting method.
How does plasma cutters work
Plasma cutting which is a plasma arc process has always been seen as an alternative to the oxy-fuel process. Plasma cutters heat gas to insanely hot temperatures which creates plasma. The massive amount of energy begins to break down the gas molecules, the atoms split therefore large amounts of energy is released, providing a plasma cutter with an incredible amount of energy to cut material such as steel. As electricity from the cutting torch travels down the plasma, it creates sufficient heat to melt through the metal. The high velocity plasma and compressed gas blow the hot melted metal away to cut straight through.
Contact us today to see how we can help you get your materials cut on time on budget to perfection
We take your idea and consult on the best methods moving forward
Our team of engineers prototype your product and start producing
The final product in mass production will be delivered based exactly on specification
Our wide range of in-house services help us control and maintain our quality at every stage of production. Our production control systems enables us to achieve consistent quality and on-time deliveries.
You won’t be disappointed!
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