by Dmitriy Nikitin | Aug 8, 2016 | Applications
The Ferotek parts were marked with a 20-watt q-switched ytterbium fiber laser and a 160 mm focal length lens. The parts were surface etched to remove a layer of material and create a brightly contrasting mark. Process Parameters: Material: Ferotec Power: 14 Watts...
by Dmitriy Nikitin | Aug 8, 2016 | Applications
The parts were marked using a 10-watt q-switched ytterbium fiber laser marking machine with a 160 mm focal length lens. The parts were surface etched, to create brightly contrasting marks. The codes read well in the lab, although the reader used in the lab is intended...
by Dmitriy Nikitin | Aug 8, 2016 | Applications
This part was laser marked with a 20-watt q-switched ytterbium fiber laser with a 160 mm focal length lens. This sample was surface etched, creating a light mark on the surface of the material. This process utilized the laser at a power setting of 9 Watts, with a...
by Dmitriy Nikitin | Aug 8, 2016 | Applications
Purolator – Automotive Marking The Purolator samples were marked using the 10-watt Fiber Laser Marking System. The ends of the filters were cut off to compensate for the fixed workstations here in the Applications Lab. The ends were marked with the same text but...
by Dmitriy Nikitin | Aug 8, 2016 | Applications
Marking: Clutchtex Clutch The part was marked using a 20-watt q-switched ytterbium fiber laser with a 160 mm focal length lens. The metal oxide part was surface etched, to create brightly contrasting marks. The part was marked using approximately 14 watts of power,...
by Dmitriy Nikitin | Aug 8, 2016 | Applications
The Laser marking on this steel was accomplished using a 20 Watt Fiber Laser
