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Our products are widely used in automotive, medical, semiconductor, aerospace and other fields to meet customers' pursuit of high quality and innovation
CNC machining enables high-precision, large-scale production in automotive component manufacturing. It is widely used in core parts such as engine cylinder blocks (flatness ≤0.02mm), turbocharger impellers (blade thickness 0.3mm ±0.005mm), and transmission gears (tooth profile accuracy DIN 5 grade).
Advanced Technologies:
Five-axis machining allows for the processing of complex curved aluminum alloy suspension arms, reducing weight by 30% while maintaining strength.
Turn-mill combined processing ensures the one-piece formation of brake calipers, achieving a coaxiality of ≤0.01mm.
New Energy Applications:
CNC precision machining enhances the manufacturing of motor housings (roundness 0.008mm) and battery module heat dissipation plates (flatness 0.015mm).
Processing efficiency improves by 40% compared to traditional methods, with a product yield rate of 99.6%, supporting the lightweight and electrification transformation of automobiles.
This drives the industry's shift toward high reliability and intelligent manufacturing.
Material and process: 40CrMnMo and other high-strength alloy steel or lightweight stamped steel plate are used, and key assembly holes, curved surface structures and shock-absorbing sleeve interfaces are formed by precision CNC processing, with a tolerance control of ±0.02mm.
Precision guarantee: Constant temperature workshop (±1°C) suppresses thermal deformation, and rough and fine processing in stages prevents thin-wall deformation.
Surface treatment: Key friction surfaces are finely ground to Ra≤1.6μm, with anti-rust coating.
Adaptability: Compatible with mass production of hydraulic clamps to meet the high rigidity requirements of automobile suspension.