119
This steel medical device was laser marked using a 20 Watt Fiber Laser marking system.
Medical Device Marking:
Process Parameters:
Material: Steel
Power: 20 Watt
Method used: Surface Etch & Anneal
Frequency: 20 & 80 kHz
Depth: Surface
Speed: 5 inches per second
Laser Type: Q-Switched Fiber Laser
Focal Length Lens: 160mm
Cycle Time: Varies
136
This stainless steel medical part was laser marked using a 20 Watt Fiber Laser Marking System.
186
Stainless steel parts were marked with a 20-watt q-switched fiber laser with a 160 mm focal length lens. The parts were deep engraved using 18 watts of power, a frequency of 20 kHz, and a speed of 5″ per second. The stamp marks on the samples the customer sent were duplicated. The total cycle time was 173 seconds.
103
The samples marked extremely well with the 20-watt Fiber Laser Marking System. Dark marks were placed on the plastic stators. The plastic stators had a cycle time of 4.71 seconds. A low frequency was used to get the dark marks on the plastic.
120
This steel medical device was laser marked using a 20 Watt Fiber Laser marking system.
Medical Device Marking:
Process Parameters:
Material: Steel
Power: 20 Watt
Method used: Surface Etch & Anneal
Frequency: 20 & 80 kHz
Depth: Surface
Speed: 5 inches per second
Laser Type: Q-Switched Fiber Laser
Focal Length Lens: 160mm
Cycle Time: Varies
137
This plastic medical part was laser marked using a 20 Watt Fiber Laser Marking System.
153
The Hasselalloy-Nickel based bracket and Grommet were marked using a 20 Watt Q-Switched Fiber Laser with a 160 mm lens. The parts were annealed using 18 Watts of power, frequency of 35 kHz, speed of 5″ per second. 2D matrix code was read in the lab with a Symbol DS 3407 Reader. Good contrast marks were achieved.
Technology: Q-Switched Fiber Laser
Wattage: 20 Watt
Wavelength: 1060 nm – 1070 nm
Focal Length Lens: 160 mm
187
Stainless steel parts were marked with a 20-watt q-switched fiber laser with a 160 mm focal length lens. The parts were deep engraved using 18 watts of power, a frequency of 20 kHz, and a speed of 5″ per second. The stamp marks on the samples the customer sent were duplicated. Total cycle times were: 246, 123, 49, 25 seconds.
104
Sample ceramics marking application. The sample marked extremely well with the 20-watt Fiber Laser Marking System.
121
This steel medical part was laser marked using a 20 Watt Fiber Laser.
Medical Device Marking:
Process Parameters:
Material: Steel
Power: 20 Watt
Method used: Surface Etch & Anneal
Frequency: 20 & 80 kHz
Depth: Surface
Speed: 5 inches per second
Laser Type: Q-Switched Fiber Laser
Focal Length Lens: 160mm
Cycle Time: Varies
138
The parts were marked using a 20-watt q-switched ytterbium fiber laser with a 160 mm focal length lens. The samples were etched with the information provided by the customer.
154
The plastic door handlers were marked using a 20 watt q-switched ytterbium fiber laser with 160 mm focal length lens. The working distance from the bottom of the lens housing to the painting surface was set at 180 mm (including 5 mm focal offset).
188
Stainless steel parts were marked with a 20-watt q-switched fiber laser with a 160 mm focal length lens. The parts were deep engraved using 18 watts of power, a frequency of 20 kHz, and a speed of 5″ per second. The stamp marks on the samples the customer sent were duplicated. The total cycle time was 131 seconds.
105
Sample ceramic marking application. The sample marked extremely well with the 20-watt Fiber Laser Marking System.