Application Lab

Ideal for precise laser welding and laser cutting of metals such as steel, aluminum, and copper. Particularly suitable for applications in the automotive industry and electrical engineering.

Ideal for processing non-metallic materials such as plastics, wood, textiles, and glass. Frequently used in custom machine building and for material processing in the packaging industry.

Particularly suitable for high-precision applications on sensitive materials, such as in medical technology or microelectronics, where minimal heat input is essential.

Ideal for marking and processing plastics and glass. UV lasers are often used in semiconductor manufacturing and for precision machining in the electronics industry.

Perfect for high-precision micro-machining without thermal effects, such as surface texturing or drilling extremely fine holes in semiconductor materials.

Suitable for laser cutting of hard materials such as metals, ceramics, or composites. Frequently used in the aerospace industry and microsystems technology.

These enable precise three-dimensional movements and ensure accurate machining paths during material processing. They are indispensable in custom machine building for automated production processes.

Ideal for processing complex geometries and reaching hard-to-access areas on rotationally symmetric parts or challenging workpieces.

Supports automated part feeding and positioning, particularly in mass production and assembly technology.

Ideal for surface analysis after laser processing to identify microcracks, burrs, or other defects.

Essential for investigating microstructural changes in materials following laser processing, such as in nanotechnology or microsystems engineering.

Determines the material hardness and is critical for quality control following laser processes such as laser welding or hardening.