3-Axis CO2 Galvo Laser Systems
Radian’s CO2 Laser Systems utilize ultra high-performance 3D (3-axis) galvanometers and precision controllers that enable them to generate ultra-precise marks with blazing-fast marking speeds and pinpoint accuracy. CO2 lasers are well suited to work with a wide variety of organic materials including most fabrics, paper, wood, stone, powder coatings, plastics, and many others.
Radian’s systems have proven to be 5x - 10x faster than traditional flatbed marking methods. This leads to greater productivity and profitability for your business. Radian’s systems can be configured to include a variety of accessories (shown below) to help automate and speed up production workflow.
Key Features:
Flexible configurations for various applications
Metal / RF driven, water-cooled laser source
3-axis (3D) marking on a curve without rotation of the workpiece
Fully Enclosed or open-frame models
Expansion features such as rotary and indexing tables to increase productivity
Configurable marking field sizes up to an industry-leading 650mm x 650mm (25.5” x 25.5”)
Motorized main door and easy open side doors for access and flexibility
Motorized Z tower with optional Auto-focus
Red tracer beam and optional logo-alignment laser
Industrial Windows(TM) computer, marking software
High-performance water chiller
Top-draft and down-draft fume extraction, optional honeycomb or solid mounting plate
Front cage fan for soot-free marks.
CO2 LASER SYSTEM FEATURES
CO2 LASER MARKING MATERIALS AND COMMON USES
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All Metals
Ceramic
Coated Stainless Steel
Fabric
Glass
Leather
Paper
Wood
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Automotive Accessories
Electronic Components
Household Products
Industrial Manufacturing
Medical Devices
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Firearms
Hardware / Tools
Jewelry
Trophies
CO2 LASER TECHNICAL SPECIFICATIONS
WHAT IS A CO2 LASER?
A CO2 (Cabon Dioxide) laser is a common type of laser that uses a sealed system incorporating a gas mixture consisting of carbon dioxide, nitrogen, hydrogen, and helium to produce a high-powered infrared beam of light. This light beam is created by exciting the gas molecules with an electrical discharge, causing them to emit photons. The photons that exit the laser and highly concentrated and coherent beam of light.
The beam produced by a CO2 laser is typically used for cutting, welding, and engraving various materials including plastics, metals, and wood. The high-powered beam is able to vaporize or melt the material it comes in contact with, producing a precise and clean cut.
CO2 laser are often manufactured with the gas being captured in a glass tube and excited by DC current. Radian only uses superior-quality metal cores tubes which are excited by RF energy. CO2 lasers are typically engineered to produce a specific wavelength of light such as 9.3 or 10.6um wavelength. Because various materials absorb these wavelength's differently, the application will dictate which one to use.
Another benefit of a CO2 laser is its versatility. It can be used to cut through a variety of thicknesses and types of materials, including acrylic, glass, and rubber. Additionally, it can be used for non-cutting applications, such as marking and engraving, where it can produce detailed and intricate designs with ease.
Overall, a CO2 laser is a powerful and efficient tool that has revolutionized the way we cut and engrave materials. Whether you're a hobbyist or a professional, a CO2 laser can help you create high-quality and precise designs quickly and easily.
CO2 LASER ACCESSORIES (OPTIONAL)
