5-Axis Milling
Simultaneous 5-axis machining for complex 3D geometries. Freeform surfaces, undercuts and highest surface quality — in a single setup.
Why 5-Axis Machining?
Single Setup Only
Complex 3D geometries are manufactured in a single setup. This eliminates re-clamping errors and saves up to 40% production time.
Better Surfaces
Optimal tool engagement (always tangential to the surface) achieves Ra 0.4 µm without post-processing.
Undercuts
Access to contours that would require multiple special tools or EDM in 3-axis machining.
Shorter Tools
Tool can be steeply angled → shorter overhang → less vibration → higher accuracy.
Industries & Applications
Aerospace
Structural parts, brackets, fairings made from aluminum 7075 and titanium
Medical Technology
Implants, instruments, housings made from stainless steel and PEEK
Tool & Mold Making
Cavities, cores, electrodes with freeform surfaces
Mechanical Engineering
Complex housings, valve blocks, turbine components
Motorsport
Lightweight parts, adapters, special brackets in small series
Prototyping
Functional samples in production quality for validation and testing
Frequently Asked Questions
What is the difference between 3+2 and simultaneous 5-axis?
3+2 machining (positional) swivels the axes to fixed angles then mills. Simultaneous 5-axis moves all 5 axes at once, required for complex freeform surfaces and turbine blades.
What are the advantages of 5-axis milling over 3-axis?
Fewer setups (often just one), shorter machining times, better surface quality through optimal tool engagement, and access to undercuts without special tooling.
What materials can be machined in 5-axis?
Essentially all CNC materials: aluminum, steel, stainless steel, titanium, copper, brass, and high-performance plastics like PEEK and POM.
How large can 5-axis parts be?
On our DMG MORI Ecomill 70, we machine parts up to 700 × 550 × 510 mm. For larger workpieces, please contact us.
Request a 5-Axis Part
Send your 3D file — we will evaluate the 5-axis strategy and provide a quote within 24 hours.