As global manufacturing faces intense competition, the speed at which companies can innovate and transform is becoming a key factor in achieving sustainable growth. The glass precision processing industry, a vital part of modern manufacturing, is no exception, with rising demands for efficient production, precise processing, and energy-saving technologies. As industries shift and consumer needs evolve, the pressure on manufacturers to meet these challenges has never been higher.
In response to these demands, Han’s Laser has introduced the 120W infrared nanosecond fiber laser, a cutting-edge solution designed to address the unique challenges of glass processing. Offering unmatched efficiency and precision, this laser system is poised to lead the way in high-performance applications like drilling, etching, and paint removal for glass products.
What Makes the 120W Infrared Nanosecond Fiber Laser Stand Out?
Compared to traditional glass processing methods, laser processing offers significant advantages in both efficiency and quality. Han’s Laser, understanding market trends and customer pain points, developed the 120W infrared nanosecond fiber laser with a focus on providing solutions to these challenges. With a fully fiber-optic structure, the laser is equipped with a self-designed seed source, amplifier, and electric control system, ensuring optimal output characteristics.
All-in-One Machine
Separate Unit Machine
Key Advantages
1.Exceptional Beam Quality
The 120W infrared nanosecond fiber laser features an M² beam quality of less than 1.3, enabling better focus during processing. This results in improved material processing efficiency and better control over edge chipping during glass cutting and drilling. The enhanced beam quality ensures optimal results for a wide range of glass applications.
Spot Test Pattern
Beam Quality Test
2.High Peak Power
Traditional pulse fiber lasers typically offer peak powers in the 10kW range, making them suitable for marking metal materials. However, glass processing requires a higher peak power for efficient results. To drill holes in glass, a minimum peak power of 40kW is required, while glass surface etching requires at least 100kW. The infrared nanosecond fiber laser delivers over 200kW of peak power, surpassing these requirements and offering the necessary energy density for glass processing tasks.
3.High Reflective Material Capability
One of the standout features of this laser is its unique anti-reflection design. The carefully selected components have been extensively tested, ensuring that the laser remains stable even when processing highly reflective materials such as glass and smart mirrors. This design guarantees long-term, stable performance in high-reflective applications, where traditional lasers might struggle.
4.User-Friendly Operation and High Adaptability
The laser comes with custom-developed upper-level software that allows real-time monitoring of the laser’s status. The software supports seamless switching between internal and external control modes, and it can be adjusted to meet specific processing needs. Additionally, the laser supports multi-layer and multi-parameter processing, making it highly versatile and adaptable to various production environments.
5.Exceptional Stability
With a low failure rate and reliable performance, the 120W infrared nanosecond fiber laser ensures consistent output and long-term reliability. Its stability is a key feature that reduces downtime and boosts overall productivity.
Optical Performance and Applications
The 120W infrared nanosecond fiber laser has already become an integral part of precision processing in multiple industries. Its applications span several fields, including semiconductor materials, consumer electronics, home appliances, and solar energy.
| Parameter | Specification | Remark |
| Operating Mode | Pulse | – |
| Average Power (W) | 120 | – |
| Average Wavelength (nm) | 1064 | – |
| Line Width (nm) | <30 | 3dB Linewidth |
| Repetition Frequency (kHz) | 100-2000 | Adjustable |
| Pulse Width (ns) | 1-100 | Customizable |
| Maximum Single Pulse Energy (mJ) | 1 | – |
| Power Adjustment Range (% ) | 0-100 | – |
| Response Time (μs) | <100 | – |
| Beam Quality (M²) | ≤1.3 | – |
| Power Stability (%) | ≤3 | 24h |
| Spot Size (mm) | 7-8.5 | Equipped with a 1.5x Beam Expander |
| Spot Ellipticity (%) | >90 | Typ.92% |
| Beam Displacement (mm) | <1.0 | – |
| Beam Divergence Angle (mrad) | <0.5 | – |
Applications include:
Consumer Electronics: Drilling, slotting, and chamfering of glass for smartphones, smartwatches, and other electronic devices.
Home Appliances: Etching of smart mirrors, as well as drilling holes in glass used in kitchenware, lighting fixtures, and other appliances.
Solar Energy: Drilling holes in photovoltaic solar panel glass for efficient manufacturing processes.
Process Showcase
1mm Thick Glass, 0.3mm Hole
2mm Thick Glass, 12mm Hole
4mm Thick Glass, 20mm Hole, 0.5mm Chamfer
12mm Thick Glass, Customized Hole Shapes
Brown Glass Drilling
Smart Mirror Etching
Drilling Efficiency Table for Standard Float Glass
These are just a few examples of the diverse capabilities of the 120W infrared nanosecond fiber laser. The results demonstrate not only the laser’s precision but also its ability to handle materials of varying thicknesses and complexity.
The Future of Glass Processing
As manufacturing evolves and new technologies continue to emerge, the demand for advanced lasers like the 120W infrared nanosecond fiber laser will only grow. With innovations in high-power, ultra-fast, and fiber lasers, industries now have more choices than ever before to meet the specific needs of their production processes.
Looking ahead, Han’s Laser remains committed to advancing laser technology. The company is focused on creating smarter, more integrated solutions, pushing the boundaries of laser technology, and enhancing applications across industries. As it continues to expand its market presence and brand, Han’s Laser is dedicated to contributing to the sustainable development and transformation of global manufacturing.