The High-Power Ultraviolet Industrial Laser is a versatile tool for industrial production, offering precision and efficiency. With power ranging from 5W to 300W and a wavelength of 355nm, it provides high-precision processing with minimal heat-affected zones. Suitable for cutting, engraving, and marking various materials like metals, plastics, and glass, this laser ensures high-quality results. Its advanced cooling system and stable performance support continuous operation, making it ideal for manufacturing environments. The laser’s high electro-optical conversion efficiency also reduces energy consumption, contributing to cost savings and sustainability in production processes.
High-Power Ultraviolet Industrial Laser for Production Lines
I. Product Overview
The High-Power Ultraviolet Industrial Laser for production lines is a high-performance laser device designed for industrial manufacturing environments. It is widely used in material processing, precision manufacturing, electronics, and medical device manufacturing. Leveraging the high energy and short wavelength characteristics of ultraviolet light, this laser achieves high-precision and high-efficiency processing while minimizing the heat-affected zone to enhance processing quality.
II. Product Features
- High Power Output: Power range from 5W to 300W, meeting various industrial processing demands.
- High Precision Processing: The short wavelength (typically 355nm) of UV light results in smaller spot sizes and higher processing precision.
- Cold Processing Characteristics: The high energy of UV lasers directly decomposes materials, reducing the heat-affected zone and making it ideal for precision processing.
- Multi-functionality: Suitable for a variety of materials, including metals, plastics, glass, and semiconductors.
- High Stability: Advanced laser technology and cooling systems ensure stable long-term operation.
- Energy Efficiency: High electro-optical conversion efficiency reduces energy consumption and operating costs.
III. Technical Specifications
| Parameter Name | Unit | Typical Value Range |
|---|---|---|
| Output Power | W | 5 – 300 |
| Wavelength | nm | 355 |
| Beam Quality (M²) | – | < 1.1 |
| Output Fiber Core Diameter | μm | 10 – 200 |
| Output Fiber Length | m | 5 – 30 |
| Power Adjustment Range | % | 10 – 100 |
| Power Stability | % | < 3 (within 12 hours) |
| Operating Voltage | VAC | 220V ± 10%, 50/60Hz |
| Maximum Power Consumption | kW | 0.5 – 10 |
| Cooling Method | – | Water-cooled or air-cooled |
| Operating Environment Temperature | ℃ | 15 – 35 |
| Operating Environment Humidity | % | 20 – 80, non-condensing |
IV. Application Fields
- Material Processing:
- Cutting: High-precision cutting of plastics, glass, ceramics, and other materials.
- Engraving: Surface engraving of metals and plastics for high-precision patterns and text.
- Marking: High-precision marking on electronic components and medical devices to ensure clear and durable identification.
- Precision Manufacturing:
- Micro-processing: Processing of micro components in semiconductor and MEMS fields.
- Photoresist Removal: Removing photoresist in electronics manufacturing to improve processing accuracy.
- Medical Device Manufacturing:
- Precision Cutting: Manufacturing high-precision medical devices such as stents and catheters.
- Surface Treatment: Cleaning and treating the surface of medical devices to ensure surface quality.
- Scientific Research:
- Spectral Analysis: Used as an experimental light source for spectral analysis and fluorescence spectroscopy.
- Biomedical Research: Cutting and treating biological tissues with minimal thermal damage.
V. Advantages
- High Precision: The short wavelength of UV light results in smaller spot sizes, enabling high-precision processing.
- Cold Processing: Direct material decomposition by UV laser energy reduces the heat-affected zone, making it suitable for precision processing.
- High Efficiency: High energy output and rapid processing capabilities significantly improve production efficiency.
- High Stability: Advanced cooling systems and stable laser output ensure long-term stable operation.
- Multi-functionality: Suitable for various materials and processing techniques, meeting diverse industrial needs.
- Energy Efficiency: High electro-optical conversion efficiency reduces energy consumption and operating costs.
The High-Power Ultraviolet Industrial Laser, with its high precision, cold processing characteristics, and multi-functionality, has become an essential high-end processing tool in modern industrial production. It is widely used in material processing, precision manufacturing, medical device manufacturing, and scientific research.