111
Laser marking glass with a company logo onto a finished piece of glass. The result was clean and professional.
128
This medical device was marked using a 20-watt q-switched ytterbium fiber laser with a 160 mm focal length lens. The sample was etched with the information provided by the customer.
Medical Device Marking:
Material: Steel
Power: 7 watts
The method used: Etching
Frequency: 25 kHz
Depth: Surface
Speed: 15 inch/sec.
Laser Type: Q-Switched Fiber Laser
Focal Length Lens: 160mm
Cycle Time: 2.12 seconds
144
The parts were marked using a 20Watt Fiber Laser Marking System with a 160mm lens. The 160mm focal length lens has a working distance of 176mm from lens to part. Two different logos were marked on the samples on each end. The main logo had a cycle time of 1.67 seconds. The other logo had a cycle time of 2.59 seconds. The logos mark on the coated dark sample provided better contrast than the light material.
160
The parts were marked using a 20 Watt Q-Switched Fiber Laser with a 160 mm lens. The handles were marked inside of the requested area designated with a pink box. The parts were tested for contrast, but some of the plastics did not produce a contrasting mark. The parameters used seemed to have the best results on all the different materials, 20 kHz, 20″ per second, and 12 watts. There were two different sized marks, one big and one small. The bigger mark had a cycle time of 1.56 seconds and the smaller, 1.14 seconds.
Technology: Q-Switched Fiber Laser
Wattage: 20 Watt
Wavelength: 1060 nm – 1070 nm
Focal Length Lens: 160 mm
177
The plastic cover was laser marked with a 20-watt q-switched ytterbium fiber laser with a 160 mm focal length lens. The part was marked with both a barcode along text. The marking was made to show the feasibility of the laser and to imply a typical cycle time and what type of contrast can be produced. The barcode was read well in the lab with Symbol DS 3407 Barcode Reader. The total time for the text and the barcode was 10.57 seconds.
112
Laser marking glass with a company logo onto a finished piece of glass using Thermark spray. The result was clean and professional.
145
This stainless steel medical part was laser marked using a 20 Watt Fiber Laser Marking System.
161
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″ per second, resulting in a cycle time of 2.75 seconds per row of numbers.
Technology: Q-Switched Fiber Laser
Wattage: 20 Watt
Wavelength: 1060nm – 1070nm
Focal Length Lens: 160mm
178
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 Watts of power, frequency of 20 kHz, speed of 25″ per second. The cycle time for the mark was 3.74 seconds. The barcode was made using the same numbers as the codes on the labels supplied with the parts. The code was read well with Symbol DS 3407 Barcode Reader in the lab.
Technology: Q-Switched Fiber Laser
Wattage: 10 Watt
Wavelength: 1060 nm – 1070 nm
Focal Length Lens: 160 mm
113
Laser marking glass with a company logo onto a finished piece of glass. The result was a clean and professional logo image.
162
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 was marked at 35 inches per second using approximately 16 watts with a frequency of 35 kHz, resulting in a cycle time of 16.32 seconds.
114
The miscellaneous glass marking application was done using a Synrad 48-2 25 watt CW CO2 laser with a FLA125 focal length lens. The glass was marked using a power of 25 watts at a speed of 25” per second, resulting in a cycle time of 0.52 seconds. The font was a simple stroke. The material provided readable marks.
131
This titanium sample was marked using laser abblation with 16 watts of power resulting in very high quality dark marks at 5.98 (larger logo) and 4.21 (smaller logo) cycle times. Technology: Q-switched Fiber Laser, Wattage: 20 Watt Focal Length Lens: 160mm.
147
These ceramic medical parts were laser marked using a 20 Watt Fiber Laser Marking System.