CNC Precision Machining: This is the fundamental and universal process for manufacturing precision metal parts. By 2025, the application rate of composite machining technology in the industry had increased to 62%. It can stably control tolerances within 0.05mm, is suitable for almost all metal materials such as stainless steel, aluminum alloys, and copper alloys, and covers all scenarios from single-piece customization to mass production. It is the preferred machining method for precision structural parts in fields such as automated equipment, medical, and aerospace.
Precision Stamping: In the automotive manufacturing industry, approximately 60%-70% of metal parts are formed using stamping processes. It is the core mass production process for thin-plate precision metal parts. With its extremely high production efficiency and stable part consistency, it occupies a very high application rate in consumer electronics and automotive sheet metal parts.
Die Casting: As the most widely used process in the metal die forging system, it is suitable for the large-scale production of non-ferrous metals such as aluminum and magnesium. It is highly efficient and low-cost, and is the mainstream manufacturing method for small and medium-sized precision die-cast parts in the electronics and automotive industries. Etching is widely used in the field of ultra-thin precision metal parts. It is a non-contact processing method that does not generate mechanical stress or burrs, and can achieve micro-hole processing at the 0.03mm level. It is a core processing technology for ultra-thin parts such as heat sinks and precision springs in consumer electronics.
Metal Injection Molding (MIM) has become a core technology in the field of micro-precision parts, with material utilization rates reaching 90%~95%. It is widely used in the mass production of small-sized complex precision parts such as micro gears and thin-walled bearings.




