High precision:
CNC processing uses computers to control the movement of tools and workpieces, which can achieve high-precision processing. Compared with traditional mechanical processing, CNC processing can achieve higher processing accuracy, usually within microns. This high precision is especially important for parts that require high dimensional accuracy.
High efficiency:
CNC processing has automation functions, which can greatly improve production efficiency. Compared with traditional manual operations, CNC processing can achieve continuous and automatic processing, reducing human errors and time waste. At the same time, CNC machining centers can complete multiple processing tasks at the same time, reducing the clamping and replacement time of workpieces, and further improving production efficiency.
Flexibility:
CNC processing has high flexibility. It can flexibly change the processing technology and workpiece shape according to program requirements to adapt to different production needs. Only a simple adjustment of the program can complete the processing needs of different products, covering a variety of complex curved surfaces, holes and concave and convex shapes. This flexibility has made CNC processing widely used in the manufacturing industry.
Good repeatability:
Since CNC machining is controlled by a computer program and is processed in full accordance with predetermined specifications, the stability and repeatability of the machining results are better. This ensures the consistency of parts and reduces the defective rate.
Save labor costs:
CNC machining equipment can operate autonomously under the supervision of a few operators, and requires less human resources to complete the same quantity and quality of work compared to traditional machining methods. This greatly reduces labor costs and improves the economic benefits of the enterprise.
High-quality machined surface:
Since the CNC machining process has high precision and stability, the surface quality of the machined surface is very high. This makes it easier for parts to meet specification requirements during assembly and reduces the need for later grinding and machining.
Traceability and reliability:
CNC machining can record and save data during the machining process, including tool paths, parameter settings, etc. These data can be used for quality control and traceability needs to ensure the reliability and quality of the product. In addition, the reliability of CNC machining is very high, and long-term stable machining operations can be achieved.
In summary, CNC Parts Processing has many benefits such as high precision, high efficiency, flexibility, good repeatability, saving labor costs, high-quality machined surfaces, and traceability and reliability. These advantages make CNC machining play an important role in modern manufacturing and widely used in various fields.
