RF-UV-3W 5W 10W
RAY FINE TECH
1.aviation cable ties and other plastic parts
2. gold plating, silver and other surface marking
3. UV oily plastic material surface marking, eg: Samsung panel, melamine
4. Marking the surface of halogen-free materials, eg: chargers for IPHONE products, connecting cables and other peripheral products
5. Identification of daily necessities (beverage packaging, food packaging)
6.cable and wire marking
7. a variety of pipe surface identification
8. flexible materials and carbon fiber cutting (material thickness is only 200um)
1.aviation cable ties and other plastic parts
2. gold plating, silver and other surface marking
3. UV oily plastic material surface marking, eg: Samsung panel, melamine
4. Marking the surface of halogen-free materials, eg: chargers for IPHONE products, connecting cables and other peripheral products
5. Identification of daily necessities (beverage packaging, food packaging)
6.cable and wire marking
7. a variety of pipe surface identification
8. flexible materials and carbon fiber cutting (material thickness is only 200um)
1. Ultraviolet lasers have the benefit of other lasers that limit thermal stress. This is because most UV laser
systems operate at low power.
2. By using a process sometimes referred to as "cold ablation," the UV laser beam produces a reduced heat
affected zone that minimizes the effects of edge processing, carbonization, and other thermal stresses,
while using higher power. Lasers usually have these negative effects.
3. The size of the ultraviolet laser beam can reach 10-20μm
1. Ultraviolet lasers have the benefit of other lasers that limit thermal stress. This is because most UV laser
systems operate at low power.
2. By using a process sometimes referred to as "cold ablation," the UV laser beam produces a reduced heat
affected zone that minimizes the effects of edge processing, carbonization, and other thermal stresses,
while using higher power. Lasers usually have these negative effects.
3. The size of the ultraviolet laser beam can reach 10-20μm
Model | RF-F-3W | RF-F-5W | RF-F-8W | RF-F-10W |
Laser Wavelength | 355nm | |||
Marking speed | 8m/s | |||
Pulse duration | <20 ns | <16ns | ||
Laser beam quality M2 | <1.2 | |||
Frequency | 10-200KHZ | |||
Marking Area | 110x110mm(optional) | |||
Mini. character size | 0.1mm | |||
Repetition Accuracy | <8μrad | |||
Control program | JCZ | |||
Supply voltage: | AC110V 60HZ or AC220V 50HZ | |||
Cooling type | Water cooling |
Model | RF-F-3W | RF-F-5W | RF-F-8W | RF-F-10W |
Laser Wavelength | 355nm | |||
Marking speed | 8m/s | |||
Pulse duration | <20 ns | <16ns | ||
Laser beam quality M2 | <1.2 | |||
Frequency | 10-200KHZ | |||
Marking Area | 110x110mm(optional) | |||
Mini. character size | 0.1mm | |||
Repetition Accuracy | <8μrad | |||
Control program | JCZ | |||
Supply voltage: | AC110V 60HZ or AC220V 50HZ | |||
Cooling type | Water cooling |