TRUMPF - TruFiber P compact
The compact fiber lasers of the P series extend the power spectrum of TRUMPF CW lasers from 2 kW down to 100 W in the low power range. They have a particularly compact form factor, flexible features such as power, beam quality and cooling concepts, and user-friendly software.
TruFiber P compact
Whether as an air-cooled precision tool with up to 500 W or as the water-cooled variant with up to 2 kW laser power – our TruFiber P compact lasers are the ideal solution for a variety of applications. This includes, for example, additive manufacturing, laser precision welding in the automotive industry or laser precision cutting in medical technology.
The TruFiber P compact series lasers belong to the compact class of the CW lasers at TRUMPF and are available in a handy 19 inch format with laser power of up to 2 kW.
TruFiber P compact lasers do not need any maintenance intervals and very rarely require unscheduled service assignments due to their excellent product quality and long service life.
TruFiber P compact lasers have a patented technology which not only protects the laser from the damaging effects of back reflected light but also makes it possible to process materials such as copper, brass or gold productively and with no hassle.
The integrated safety concept offers the highest safety level (PLe) for automatic shutdown if there is an interruption in the safety circuit.
Which materials can be processed with fiber lasers?
Fiber lasers are ideal for processing a wide range of materials and with years of industrial use have proven reliability. Fiber lasers are especially popular for processing metals. The type of metal involved is of secondary importance. Fiber lasers can process mild steel, stainless steel, titanium, iron and nickel as well as reflective metals such as aluminum, brass, copper and precious metals (silver and gold). They also work well with materials that have anodized and painted surfaces. Fiber lasers, and particularly pulsed nanosecond lasers, are also used in processing silicon, gemstones (including diamonds), plastics, polymers, ceramics, composites, thin layers, bricks, and concrete.