This document summarizes a laser marking system. It discusses that laser marking uses focused light from a laser to produce a permanent mark on a material without contact. The patterns marked are exact computer designs. It then describes the configuration of the system including its wavelength, power requirements, and operational temperature. Benefits are noted such as permanent marks, high speed, and flexibility. Finally, it lists the main types of laser systems and materials that can be marked.
2. Laser marking system…
Laser marking is achieved when focused
light from a laser interacts with a material
to produce a high quality permanent mark.
Laser marking is a non-contact process.
It has no consumables, making it clean
and energy-efficient.
Patterns that are marked by lasers are
exact representations of computer-
designed graphics.
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3. Configuration…
Configuration of Laser Marking System is
given below:
Wavelength: 1064nm
System Power: < 400 watts
Power Requirements:95 to 250 VAC
Maximum Supply Voltage: 264 VAC
Operational Temperature: 18° to 35°C
Expected Diode Lifetime: > 200,000
hours
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4. Benefits of Laser marking…
Reliable, long, maintenance-free
performance
Air cooling
Excellent mark quality
Non-contact process
High speed
Permanent marks
Easy integration
No post processing
Wide range of markable materials
Highly flexible mark: text, graphics,
data codes
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5. types of Laser marking system…
There are four types of laser marking
system are:
CO2 Laser Marking System
Diode Laser Marking System
YAG Lamp Laser Marking System
Fiber Laser Marking System
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6. suBstrates…
Here’s a list of typical substrates which can be
marked using laser Marking System:
Metal Ceramics
Films &Foils Glass
Organic Materials Plastic
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