by Dmitriy Nikitin | Aug 8, 2016 | Applications
The carbide, oxide coated and stainless steel were marked with a surface etch, the stainless steel was marked with a dark mark as well. A light etch is produces the most contrast when marking on carbide. Marks were made at the heights of 0.075”, 0.1” and 0.15” The...
by Dmitriy Nikitin | Aug 8, 2016 | Applications
The parts were marked with a 10 watt q-switched ytterbium fiber laser and 160 mm focal length lens. The 160mm focal length lens has a working distance of 176mm from lens to part. Two passes were needed to darken the steel with out causing too much warping of the...
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 plastic pan was marked using a 20 Watt Fiber Laser Marking System.
by Dmitriy Nikitin | Aug 8, 2016 | Applications
Laser etched aluminum steel Material: Steel Power: 17 watts Method used: Etching Frequency: 25 kHz Depth: Surface Speed: 10 inch/sec. Laser Type: Q-Switched Fiber Laser Focal Length Lens: 160mm Cycle Time: 5.77 Seconds...
by Dmitriy Nikitin | Aug 8, 2016 | Applications
The tag was marked using a 20 Watt Fiber Laser Marking System
