100W QCW Fiber Laser Welding Machine - China Factory Suppliers for Versatile Fiber Core Selection
Product features
Pulse control system, accurate control of energy;
Laser without optical consumables, less maintenance;
Up to 30% photoelectric conversion efficiency, power consumption is only 10% of the same power YAG laser;
The optical components inside the laser are all connected by welding, and the optical path does not need to be recalibrated when the device is moved;
Laser internal integrated homogenizing device, laser energy distribution is uniform, more suitable for welding field;
With arbitrary waveform setting function and data communication function.
Frequently Asked Questions (FAQ)
How does the pulse control system improve welding performance?
The pulse control system provides highly accurate control of laser energy, ensuring precise heat input and consistent quality for delicate welding applications.
Does this laser system require frequent maintenance?
No. Since the laser operates without optical consumables and the internal components are securely welded, the system requires significantly less maintenance over its lifespan.
How energy-efficient is this laser compared to traditional YAG lasers?
This system features up to 30% photoelectric conversion efficiency. Its overall power consumption is only 10% of a YAG laser of the same power rating, offering massive energy savings.
Do I need to recalibrate the laser after moving the equipment?
No calibration is needed. All internal optical components are connected by welding, ensuring the optical path remains aligned and stable even after relocation.
What makes this laser ideal for specialized welding fields?
It features an integrated internal homogenizing device that delivers a uniform laser energy distribution, which is highly optimized for achieving clean and reliable welds.
Does the device support custom settings and integration?
Yes, it includes an arbitrary waveform setting function for custom laser profiles, alongside built-in data communication capabilities for seamless system integration.


Lily
Jason wong


