CNC Machine: Automated Precision Machining with Multi-Axis Control

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CNC Machine: Types, Applications, Programming, Maintenance & Safety Tips for Precision Machining

A machine tool based on computer numerical control (CNC) technology that achieves automated machining through programming tool paths. It has multi axis functional linkage, high precision (tolerance ± 0.005mm), high efficiency, and is widely used in the mass production of precision molds, aerospace parts, and complex mechanical structures.
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Advantages of the product

Advanced Multi-Axis Control

Enabling 3-5 axis linkage machining allows for simultaneous movement along X/Y/Z and rotation axis (A/C), reducing the setup time for complex parts such as impellers and turbine housings by 70%. Volume accuracy is ≤± 0.05mm/m.

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The backbone of modern manufacturing, these multi-axis machines integrate milling, drilling, tapping, and boring in a single setup. Applied with high speed spindles that go up to 40k rpm and linear motors that enable 1g acceleration, along with 12-120 tool changing stations, these machines offer a 40% lower working cycle than conventional machines. The multi 5-axis models allow contouring for mechanical parts used in the aerospace industry and applied with thermal displacement compensation for long period work ensures accuracy becomes as low as drift ≤±0.003mm/h.

Frequently Asked Questions

How do CNC machines enhance productivity?

With spindle speeds up to 40,000rpm and rapid feed rates (60m/min), they reduce cycle times by 50% and support lights-out manufacturing with automatic tool changers (ATC).
They handle steel, aluminum, titanium, and composites, with heavy-duty models suitable for Inconel and aerospace alloys, achieving volumetric accuracy ≤±0.05mm/m.

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Customer Reviews

Bay

The 3D simulation feature prevented 95% of potential collisions, while auto-nesting software reduced material waste by 18% in prototype production. Its ability to handle 120-tool changers optimized multi-process efficiency.

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Thermal Stability Design

Thermal Stability Design

Incorporates liquid-cooled spindles and heat-resistant alloys, maintaining dimensional stability (thermal drift ≤±0.003mm/h) during prolonged operations. Critical for 24/7 production in automotive and electronics industries.
Heavy-Duty Construction

Heavy-Duty Construction

Built with cast iron or granite bases (rigidity ≥50N·m/μm) and linear motors for high acceleration (1g), handling heavy cuts in steel and Inconel. Suitable for large-scale machining of aerospace structural parts and industrial equipment.
Industry 4.0 Compatibility

Industry 4.0 Compatibility

Integrates with IoT sensors and ERP systems for real-time performance monitoring and predictive maintenance. Reduces unplanned downtime by 40% through vibration and temperature analytics, supporting smart factory initiatives.