General High-Precision Scenarios: CNC Precision Machining
It is the preferred process for the vast majority of precision metal parts, capable of consistently achieving micron-level dimensional accuracy. It is compatible with almost all metal materials, including aluminum alloys, stainless steel, and titanium alloys. It is not limited by the complexity of the part's structure and can cover everything from small-batch prototyping to mass production. It is the mainstream processing method for core components of optical instruments and precision machinery, offering the best overall performance in terms of precision and versatility.
General High-Precision Scenarios: CNC Precision Machining
It is the preferred process for the vast majority of precision metal parts, capable of consistently achieving micron-level dimensional accuracy. It is compatible with almost all metal materials, including aluminum alloys, stainless steel, and titanium alloys. It is not limited by the complexity of the part's structure and can cover everything from small-batch prototyping to mass production. It is the mainstream processing method for core components of optical instruments and precision machinery, offering the best overall performance in terms of precision and versatility.
Special High-Demand Scenarios: Precision Casting/Special Machining
For parts with extremely complex structures, high precision requirements, and no material limitations, lost-wax (investment casting) precision casting is the preferred choice. The finished product can directly achieve a level of precision with minimal or no cutting, with a surface roughness as low as Ra0.4μm. It is suitable for the production of complex precision parts from various alloys and even precious metals.
For parts made of high-hardness, difficult-to-machine materials, or with extremely small irregular holes/cavities, special precision machining such as electrical discharge machining (EDM) and grinding is more suitable. These methods can overcome the limitations of traditional cutting tools, achieving ultra-high precision forming of special structures.




