High-Precision CNC Machining & Metal Manufacturing
Engineering-driven, globally standardized production solutions tailored to your technical drawings.
CNC machining (Computer Numerical Control) is a manufacturing process based on subtractive machining principles, in which material is precisely removed using computer-controlled machine tools. In this method, 2D or 3D CAD models are converted into G-code through CAM software, and these commands control all machine movements—including toolpaths, spindle speed, cutting feed, and axis coordination—with micron-level accuracy.
Using CNC milling machines, CNC lathes, vertical machining centers, 5-axis systems, and precision measurement equipment, it is possible to manufacture complex geometries, tight-tolerance surfaces, and repeatable high-precision components.
CNC machining synchronizes linear and rotational axis movements, optimizing cutting parameters such as depth of cut, feed rate, cutting speed, and tool engagement. This eliminates the variability caused by manual operations and ensures consistent quality, especially in industrial-scale production.
Technical Advantages of CNC Machining
• Micron-Level Tolerance Control
Tolerances as low as ±0.005 mm — or even tighter depending on the material and setup — can be achieved.
• High Surface Quality (Ra)
Optimized toolpaths, tool selection, cutting strategies, and machine rigidity enable extremely low Ra surface roughness.
• Complex Geometry Capability
3D contours, internal channels, pocketing, radius surfaces, tapered shapes, and precision bores can be produced with high accuracy.
• CAD/CAM Integration
CAM-generated optimized toolpaths increase process stability, reduce machining time, and ensure consistent dimensional accuracy.
• Process Stability & Repeatability
Controlled cutting forces, tool life management, and thermal stability allow consistent part quality across all production cycles.
• Wide Material Compatibility
Aluminum, carbon steels, stainless steel, brass, copper, titanium, engineering plastics, and high-performance alloys can be machined efficiently.
Industrial Applications
- Machinery and equipment manufacturing
- Automotive subcomponents
- Aerospace and defense parts
- Medical device components
- Electronic housings and precision connectors
- Industrial automation parts
- Custom-designed mechanical systems