CNC oxygen cutting is a manufacturing process that uses a computer numerical control (CNC) system to guide a cutting torch that is fueled by oxygen to cut materials, such as metal or plastic.
The process involves using the oxygen to create a high-temperature flame that is able to melt and vaporize the material, allowing it to be cut into a specific shape or design.
CNC oxygen cutting is a highly efficient and accurate process that allows for the creation of complex and detailed shapes with a high degree of repeatability. The process is commonly used in industries such as manufacturing, automotive, aerospace, and electronics, where precise and accurate cuts are required in parts and components.
The CNC oxygen cutting process typically involves securing the material to be cut onto a worktable, using clamps or other fastening devices to hold it in place. The cutting torch is then positioned above the material, and the CNC system is used to guide the torch along the desired path to cut the material. The temperature and speed of the cutting torch can also be controlled using the CNC system, allowing for precise and accurate cuts. Once the cutting is complete, the finished part or component is removed from the worktable and the process is repeated as needed to produce multiple parts or components.
