Precision CNC machining technology is a process that utilizes computer numerical control technology to achieve high-precision machining. Its core is to control the movement of the machine tool through digital programs, convert design drawings into executable instruction codes (such as G-code), and accurately control the tool path, rotation speed, and feed rate.
Key technical procedures
- Numerical Control Programming: Designers need to convert CAD models into G-code, taking into account factors such as material properties and processing techniques. It particularly important that required technical person been involved in.
- Parameter settings: including tool selection, cutting speed, feed rate, etc. Incorrect settings may result in machining errors or material waste.
- Machine tool debugging: involves operations such as tool installation and workpiece clamping, which require experienced technicians to complete.
- Quality inspection: After processing, strict inspection of part dimensions, tolerances, etc. is required to ensure accuracy.
Application field
Widely used in aerospace, automotive manufacturing, electronic equipment and other fields, processing materials such as stainless steel and carbon steel, involving processes such as turning and milling.