Industrial CO₂ laser tubes are high-performance laser sources designed for diverse industrial applications. With power outputs ranging from a few watts to tens of kilowatts and a wavelength of 10.6 μm, these tubes offer high precision and stability, making them ideal for cutting, welding, and marking various materials, including metals, plastics, and glass. Their optimized gas mixtures and tube designs ensure long service life and high efficiency. Suitable for both continuous and pulsed operation, these laser tubes are equipped with water or air cooling systems to maintain stable performance during prolonged use. Their high electro-optical conversion efficiency also reduces energy consumption, contributing to cost savings and sustainability in industrial processes.

Industrial CO₂ Laser Tubes for Production Lines

I. Product Overview

Industrial CO₂ laser tubes for production lines are high-performance laser sources designed for industrial processing. Utilizing carbon dioxide gas as the working medium, these tubes generate laser beams through gas discharge, offering high power, high stability, and long service life. Widely used in material processing, cutting, welding, and marking, they are particularly suitable for working with both metallic and non-metallic materials.

II. Product Features

1. High Power Output: Power ranges from a few watts to tens of kilowatts, meeting diverse industrial processing needs.
2. High Stability: Advanced gas discharge technology and stable power supply systems ensure long-term stable operation.
3. Long Service Life: Optimized gas mixtures and tube designs extend the lifespan of the laser tubes.
4. High Precision Processing: Good laser beam quality and small spot sizes enable high-precision processing.
5. Multi-functionality: Suitable for a variety of materials, including metals, plastics, wood, and glass.
6. Energy Efficiency: High electro-optical conversion efficiency reduces energy consumption and operating costs.

III. Technical Specifications

IV. Application Fields

1. Material Processing:

• Cutting: High-precision cutting of metals, plastics, wood, and glass.
• Welding: Efficient welding of metallic materials to ensure high-quality welds.
• Marking: High-precision marking on various material surfaces to ensure clear and durable identification.

1. Precision Manufacturing:

• Micro-processing: Processing of micro components in electronics and medical devices.
• Surface Treatment: Cleaning and treating material surfaces to improve surface quality.

1. Medical Device Manufacturing:

• Precision Cutting: Manufacturing high-precision medical devices such as stents and catheters.
• Surface Treatment: Cleaning and treating the surfaces of medical devices to ensure surface quality.

1. Scientific Research:

• Spectral Analysis: Used as an experimental light source for spectral analysis and laser-induced breakdown spectroscopy.
• Biomedical Research: Cutting and treating biological tissues with minimal thermal damage.

V. Advantages

1. High Power: Provides stable high-power laser output, meeting industrial production’s high-energy demands.
2. High Stability: Advanced gas discharge technology and stable power supply systems ensure long-term stable operation.
3. Long Service Life: Optimized gas mixtures and tube designs extend the laser tube’s lifespan.
4. High Precision: Good laser beam quality and small spot sizes enable high-precision processing.
5. Multi-functionality: Suitable for various materials and processing techniques, meeting diverse industrial needs.
6. Energy Efficiency: High electro-optical conversion efficiency reduces energy consumption and operating costs.

Industrial CO₂ laser tubes, with their high power, stability, and multi-functionality, have become essential high-end processing tools in modern industrial production. They are widely used in material processing, precision manufacturing, medical device manufacturing, and scientific research.