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Process Parameters: Small Parts – No Coating, Anneal Material: Steel Power: 7 Watt Method used: Anneal Frequency: 35 kHz Depth: Surface Speed: 10 inchsec Laser Type: Q-Switched Fiber Laser Focal Length Lens: 160mmRead More…
Process Parameters: Small Parts – No Coating, Anneal Material: Steel Power: 7 Watt Method used: Anneal Frequency: 35 kHz Depth: Surface Speed: 10 inchsec Laser Type: Q-Switched Fiber Laser Focal Length Lens: 160mmRead More…
Process Parameters: Small Parts – Dark Coating, Light Etch Material: Steel Power: 17 Watt Method used: Etching Frequency: 80 kHz Depth: Surface Speed: 3 inchsec Laser Type: Q-Switched Fiber Laser Focal LengthRead More…
Process Parameters: Large Parts – Dark Coating, Light Etch Material: Steel Power: 17 Watt Method used: Etching Frequency: 80 kHz Depth: Surface Speed: 3 inchsec Laser Type: Q-Switched Fiber Laser Focal Length Lens:Read More…
Laser marking of the tool steel was accomplished with a 20 Watt fiber laser marking system. The tool steel was marked with dark marks, duplicating the example pieces sent to us. The part wasRead More…
Medical Device Marking: The part was laser marked using a 20-watt q-switched ytterbium fiber laser with a 420 mm focal length lens, having a working distance of 493mm. Gloves were used toRead More…
The part was laser marked with a 20-watt q-switched ytterbium fiber laser and a 160 mm focal length lens. Process Parameters: Material: Aluminum Power: 12 Watts Method used: Surface Etch Frequency: 25Read More…
The part was marked using a 20Watt Fiber Laser Marking System
A laser etched aluminum tool Process Parameters: Material: Aluminum Power: 12 Watts Method used: Surface Etch Frequency: 25 kHz Depth: Surface Speed: 10 inch/sec Laser Type: Q-Switched Fiber Laser Focal Length Lens:Read More…
The parts were marked with a 20 watt q-switched ytterbium fiber laser and 160 mm focal length lens. Process Parameters: Material: Steel Power: 16 Watts Method used: Ablation Frequency: 80 kHz Depth:Read More…
The samples were marked using a 20 watt Q-switched Fiber Laser using a 160 mm lens. The Colt logo (vector graphic) was annealed using 15 Watts of power, frequency of 80 kHz,Read More…
The part was marked with a 20-watt Q-switched Ytterbium fiber laser and a 160 mm focal length lens. The sample was ablated with the information provided by the customer to create aRead More…
The part was marked using a 20 Watt Fiber Laser Marking System
This anodized aluminum tube was marked with a 20 watt q-switched ytterbium fiber laser at 9 watts with a frequency of 25kHz and 160mm focal length lens. The part was surfaced etchedRead More…
A laser marking on Aluminum
This steel tool was marked using a 20 Watt Fiber Laser Marking System
The parts were marked using a 20 Watt Pulsed Fiber Laser using a 420mm lens. Three trials were made. The fastest marking trial was when 12 Watts of power was used withRead More…
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 theRead More…
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, atRead More…