129
This medical part was laser marked using a 20 Watt Fiber Laser.
This medical part was laser marked using a 20 Watt Fiber Laser.
This stainless steel medical part was laser marked using a 20 Watt Fiber Laser Marking System.
Laser marking was accomplished using a 20 Watt Fiber Laser using a 160 mm lens. The steel was engraved using 18 Watts of power, frequency of 25 kHz, speed of 10″ perRead More…
Laser marking on automobile car vent plastic. The plastic air vent was marked using a 20 Watt Q-Switched Fiber Laser with a 160 mm lens. The part was etched using 5 WattsRead More…
Laser marking glass with a company logo onto a finished piece of glass. The result was a clean and professional logo image.
This stainless steel medical part was laser marked using a 20 Watt Fiber Laser.
The stainless steel medical part was laser marked using a 20 Watt Fiber Laser.
The aluminum was marked with a 20-watt q-switched ytterbium fiber laser with a 160 mm focal length lens. The part was surface etched, to create a highly contrasting mark. The part wasRead More…
Company: CAT Radial parts marking.
ATF regulations have led the firearms industry to seek fiber laser solutions.
Laser processing has only recently started to take hold of the packaging industry, but the benefits are far-reaching.
This process is commonly used to create permanent part marking. Etching is typically a very shallow surface removal to create contrast.
Aluminum is widely used in metal fabrication but not exclusively cut by lasers. Aluminum is extremely reflective to conventional CO2 laser technology. Fiber lasers are the answer.
Stainless steel is fabricated across almost every industry. Conventional methods include CO2 laser cutting, plasma, water jet, sheering, punching and stamping. Cutting with a Fiber laser can eliminate almost every other method.
Until now copper has rarely been cut by a laser. This is due to copper being highly reflective to the wavelength of CO2 lasers. Fiber lasers are the answer.