Fullfield multilaser 3 x 500 W
Maximize your productivity with the TRUMPF fullfield multilaser: Three 500 watt TRUMPF fiber lasers simultaneously scan the entire build area (100% overlap), which ensures that you achieve the best build rates. All of the lasers can be allocated in the build area with flexibility, which gives the components an optimal surface quality without any seam marks.
Preheating of up to 500°C means you can use a wide range of materials and ensures better component quality
Through preheating of up to 500°C, you can achieve a visibly better component quality for several applications and materials from sectors such as tool and mold making, the aerospace industry, and medicine. In this way, you can benefit from fewer support structures and fewer stress cracks, for example. Furthermore, some materials actually require a temperature of at least 500°C, so that they can be processed in the first place.
Melt pool monitoring
Take advantage of a detailed quality check and documentation, layer-by-layer. This enables you to detect process deviations early on and to visualize areas of the component that are critical. In addition, you can automatically analyze the data against a reference part. You can also monitor all of the weld pools in parallel with ease.
Integrated interchangeable cylinder principle
As the build and supply cylinders can be exchanged quickly, cylinder setup and powder removal for build jobs can be performed parallel to the LMF process. This reduces idle time and non-productive time and increases the machine’s productivity.
Industrial part and powder management
Take advantage of setup and powder removal for one or more machines, all parallel to production. Short throughput times for large powder volumes and a closed powder circuit provide a high degree of productivity and operator safety. The central components of the sieving station, powder removal station, and powder silo provide the basis for series production on an industrial scale.
Powerful TRUMPF lasers
The 500-watt fiber lasers operate using a wavelength of around 1,070 nm. The focal diameter, which can be individually adjusted between 100 and 500 μm, means it is possible to react to differing component requirements with outstanding flexibility.