The qualified rate of the parts processing plant is closely related to the quality of CNC precision mechanical parts processing. If the qualified rate of mechanical parts processing is too low, the competitiveness of the product can be imagined. Therefore, the qualified rate is the lifeline for suppliers!
Industrial product prototypes often require prototypes. Prototypes are the first step to verify the feasibility of a product. They are the most direct and effective way to find out the defects, deficiencies, and drawbacks of a designed product, thereby making targeted improvements to the defects, eliminating expensive mold opening costs, reducing R&D risks, and accelerating R&D efficiency.
The equipment involved in machining processes is diverse, primarily including lathes, milling machines, drilling machines, boring machines, grinding machines, roller machines, planing machines, EDM machines, sawing machines, wire electrical discharge machining (WEDM) machines, engraving machines, laser cutting machines, precision engraving machines, and CNC bending machines.
CNC (Computer Numerical Control) machining is a method that utilizes computer numerical control technology for precision machining, widely applied in cutting, engraving, and molding of various metallic and non-metallic materials.
The manufacturing of precision molds is inseparable from those advanced processing equipment. The main processes of precision mold manufacturing include CNC milling, wire cutting, EDM, grinding, turning, measurement, automation, etc.
Precision mechanical parts processing is to assemble and adjust the processed parts according to the drawings or customer requirements to make them into products that meet the performance requirements. Precision mechanical parts processing includes turning, milling, planing, grinding, boring and assembly processes.
