Laser cutting titanium

Precise CAD data:  Experienced colleagues convert your drawing or sketch into CAD format. We manufacture optimizedto the tolerance center.

The perfect combination of machine and manual work: CNC-controlled laser cutting systems implement CAD data with µm precision. And yet, often only manual intervention in the cutting sequence can achieve the perfect result.

Technical understanding of your project: To manufacture your workpiece in the best possible way, we first record all technical requirements and try to understand its intended use precisely. This allows us not only to manufacture with precision, but also to provide you with specific advice and, if necessary, make suggestions for optimization.

Optimized cutting parameters:  Minimal edge roughness is achieved through a combination of precise focusing, optimal cutting parameters, and dynamic beam shaping, based on many years of in-depth industry experience.

High-quality optics and machine precision: Our high-quality laser cutting machines with precise control of optics and cutting parameters contribute significantly to edge quality.

Material and thickness adjustment: Choosing the right material and using thinner materials in combination with optimally adjusted parameters results in lower roughness. With thicker materials, precise coordination of laser power and cutting speed is crucial for component quality.

Minimal heat-affected zone: The combination of a small focus diameter and cutting speeds reduces thermal stresses on the material, thereby minimizing material warpage.

Dynamic power control: Our modern fiber lasers adjust power in real time through pulse modulation and beam shaping. For thin materials, the energy supply is precisely controlled to minimize heat input. Depending on the material type and thickness, these technologies achieve tolerances of ±0.005 mm even with complex geometries, such as those used in aerospace or medical technology.

Excellent reproducibility: Thanks to CNC control and automation, modern laser cutting systems cut every part with extremely high precision and repeat accuracy. Computer-aided control ensures that even in large series, every workpiece is practically identical.

High cost-effectiveness: Laser cutting is fast, enables short setup times, and allows tool-free switching between different designs. This saves time and money, especially with varying or small batch sizes.

Minimal post-processing: High cutting quality and clean edges significantly reduce stress on the material, leading to lower post-processing effort and costs.