by Dmitriy Nikitin | Aug 8, 2016 | Applications
The 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: Carbide Power: 8 Watts Method used:...
by Dmitriy Nikitin | Aug 8, 2016 | Applications
Laser marking of the machined rubber/aluminum tube was accomplished using a 10 Watt Fiber Laser Marking System. The marking on the tube had a long cycle time of 8.91 seconds. The rubber was marked slower to produce a deeper mark. The parts were marked using a 10-watt...
by Dmitriy Nikitin | Aug 8, 2016 | Applications
The laser marking on this brass was accomplished using a fiber laser
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 sample marked was a small anodized...
by Dmitriy Nikitin | Aug 8, 2016 | Applications
The parts were marked using a 20 Watt Pulsed Fiber Laser using a 160 mm lens. The samples were annealed to create brightly contrasting marks. All the 2D Codes were read at the lab. Technology: Q-switched Fiber Laser Wattage: 20 Watt Wavelength: 1060nm – 1070nm...
by Dmitriy Nikitin | Aug 8, 2016 | Applications
The Laser marking on this aluminum part was accomplished using a 20 Watt Fiber Laser