by Dmitriy Nikitin | Aug 8, 2016 | Applications
The samples were marked using a 20-watt q-switched ytterbium fiber laser with a 160 mm focal length lens. The carbide parts were surface etched, to create brightly contrasting light marks on the material. They were marked using approximately 11 watts of power, with a...
by Dmitriy Nikitin | Aug 8, 2016 | Applications
The part was marked using a 20-watt q-switched ytterbium fiber laser with 160mm focal length lens. The small and medium drill bits were surface annealed at approximately 17 watts of power, at a speed of 4 inches per second, with a frequency of 75kHz, resulting in...
by Dmitriy Nikitin | Aug 8, 2016 | Applications
This part was marked using a 10-watt q-switched ytterbium fiber laser with a 160 mm focal length lens. The part was surface etched, to create contrasting marks. Material: Carbide Steel Method used: Surface Etch Depth: Surface Laser Type: Q-Switched Fiber Laser Focal...
by Dmitriy Nikitin | Aug 8, 2016 | Applications
This part was marked using a 10-watt q-switched ytterbium fiber laser with a 160 mm focal length lens. The part was surface etched, to create contrasting marks. Material: Carbide Steel Method used: Surface Etch Depth: Surface Laser Type: Q-Switched Fiber Laser Focal...
by Dmitriy Nikitin | Aug 8, 2016 | Applications
This part was marked using a 10 watt q-switched ytterbium fiber laser with 160 mm focal length lens. The part was surface etched, to create contrasting marks. Material: Carbide Steel Method used: Surface Etch Depth: Surface Laser Type: Q-Switched Fiber Laser Focal...
