Lathe & Milling

CNC Turning & Milling in Metalworking

In CNC manufacturing and metalworking, we combine state-of-the-art technology with traditional machining expertise. Our machines are designed for a wide range of machining tasks – from simple turned parts to complex 5-axis components with freeform surfaces.

We manufacture:

• turned parts and CNC-turned components
• milled parts and CNC-milled components
• precision single parts and complete assemblies
• prototypes for development and testing
• series components for ongoing production

It makes no difference whether the task involves small components or demanding parts for mechanical engineering – we implement every requirement with technical precision.

Complex Geometries Through Multi-Side Machining

In CNC milling, we work with modern machining centers and program up to full 5-axis machining. This enables complex geometries and freeform surfaces to be produced in a single setup.

We machine milled parts up to 1000 mm × 2000 mm and rely on:

• reduced re-clamping
• high dimensional accuracy
• short throughput times
• cost-efficient manufacturing of complex parts

Especially for spatially demanding components, the strength of 5-axis technology becomes clear: forms that once required multiple setups are now produced in a single process.

Prototype Manufacturing & Series Production

We produce both prototypes and series parts. Each area has completely different requirements – and we are set up for both.

Prototypes:

• fast turnaround
• flexible manufacturing strategies
• adaptation to development steps

Series production:

• process stability
• repeat accuracy
• documented quality

We support not only manufacturing, but also optimization for stable series production.

Large Diameters – Precision Machined

Our CNC lathes are designed for demanding workpieces. We machine large components up to Ø 850 mm and rely on:

• stable workpiece clamping
• precisely matched cutting tools
• uniform material removal
• reproducible results

In turning, details matter. Surface quality, concentricity, and dimensional accuracy determine whether a part functions properly in the assembly. That’s why we focus on optimal machining sequences right from the planning stage.

Chip-Removing Machining Backed by Experience

For us, machining is not just “removing material,” but the precise control of a process. Every combination of material, tool, and cutting parameters affects:

• surface quality
• tool life
• dimensional accuracy
• process stability

We don’t adapt components to the process – we adapt the process precisely to the material and application.

Hard Machining – When Materials Reach Their Limits

For hardened and high-strength materials, we rely on hard machining. This process allows the precise machining of extremely hard materials without requiring time-consuming intermediate steps.

Typical applications for hard machining include:

• high-strength tool steels
• hardened components
• precision parts with tight tolerances
• cost-efficient finishing of complex contours

This is where experience is crucial: wrong parameters lead to tool breakage – right parameters deliver stable quality.

Large-Scale Manufacturing Without Compromise

Large components place special demands on:

• machine accuracy
• clamping technology
• vibration control
• process monitoring

Our large-scale manufacturing is designed to machine oversized components with full precision – without compromising form accuracy or surface quality.