Large Desktop Fiber Laser Engraving Systems
Radian's high-performance large desktop fiber galvo laser systems are professional, high-quality, compact, and feature-rich engraving machines. The Radian 2D or 3D Desktop Fiber Laser System offers a fully enclosed form factor. The optional workstation / stand is large enough to house a desktop computer and fume extractor. This laser marking machine is great for operations where having all components neatly in one area is necessary or preferred.
The fiber desktop laser system offers a larger work area than the mini and micro laser systems. Removable doors and side panels allow for easy object placement and for marking larger or bulky objects. Fiber lasers are perfect for marking inorganic items such as metals and anodized aluminum.
Key Features:
Medium footprint ergonomic enclosure with optional base stand
Ultra Fast and Precise Galvos
Optional Compact enclosure that holds all components, including computer and fume extractor
Detachable doors and side panels to accommodate large workpieces
Advanced Auto-Focus (Standard) with motorized Z-axis
Expansion features such as rotation tools and indexing tables
Optional safety interlocks for operator protection
Available in 20 or 30 watts
FIBER LASER SYSTEM AND FEATURES
FIBER LASER MATERIALS & COMMON USES
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Aluminum
Anodized Aluminum
Brass
Bronze
Carbide
Copper
Gold
Platinum
Silver
Stainless Steel
Titanium
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Automotive Accessories - Logos, Text
Electronic Components - Serial Numbers, Barcodes, Labels
Household Products - Knobs, Faucets, Fixtures
Industrial Manufacturing - Serial Numbers, Part Numbers, Data Codes
Medical Devices - Serial Numbers, Barcodes, Labels
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Firearms - Logos, Checkering, Art
Hardware/Tools - Personalization, ID Marking
Jewelry - Personalization, Logos, Origin Codes
Trophies - Personalization
FIBER LASER TECHNICAL SPECIFICATIONS
WHAT IS A FIBER LASER?
A fiber laser is a solid-state laser in which the active medium is an optical fiber doped with rare-earth ions. When an external energy source, such as a pump diode, is applied to the fiber, it excites the rare-earth ions and causes them to emit photons. These photons bounce back and forth within the fiber, creating a highly concentrated beam of light. This beam is then amplified as it passes through additional doped fibers or other optical components. The particular wavelength (1064nm) and other unique properties of fiber lasers make them ideal for a variety of industrial, medical, and scientific applications, including cutting, welding, and drilling materials, as well as for use in telecommunications and spectroscopy. Sometimes you will hear the terms Q-Switched laser or MOPA (Master Oscillator power Amplifier) used to describe fiber lasers. Q-Switched lasers have fixed pulse widths and cost less than MOPA sources that have wider frequency range and variable pulse width for more marking control and precision.
FIBER LASER ACCESSORIES (OPTIONAL)
