For all of marking requirements, Fiber Laser Engravers are the best marking tools, and they typically have a robust, industrial-strength construction and high-quality components.don’t have to worry about material hardness or power levels when using Fiber Laser Engraving because the same quality mark will appear on any material.
YVO4 lasers are created by employing crystals as the amplification medium instead of optical fibre, which is used to build fibre lasers. Their peak power and pulse width are different from one another. For deep engraving and high-power marking applications, fibre lasers are best suited.
Although fibre laser markers and YVO4 laser markers both work in the same wavelength range, the ways in which their beams are produced varies significantly.
A fibre laser is a laser in which an optical fibre doped with rare-earth elements including erbium, ytterbium, neodymium, dysprosium, praseodymium, thulium, and holmium serves as the active gain medium. They share a connection with doped fibre amplifiers, which amplify light without lasing.
In order to act as gain media for a fibre laser, fibre nonlinearities such as stimulated Raman scattering and four-wave mixing can also produce gain.
The fact that the laser light is created and delivered via a medium that is naturally flexible makes fibre lasers superior to other types of lasers since it makes it simpler to send the laser light to the target and concentrating point. This can be crucial for metal and polymer laser cutting, welding, and folding. High output power in comparison to other laser types is another benefit.
Since the active zones of fibre lasers can be many kilometres long, they can offer extremely high optical gain. The large surface area to volume ratio of the fibre, which enables effective cooling, enables them to maintain kilowatt levels of continuous output power.
The optical path’s heat distortion is reduced or completely eliminated by the fibre’s waveguide capabilities, leading to a typically high-quality, diffraction-limited optical beam.
Because the fibre may be bent and coiled, with the exception of thicker rod-type systems, fibre lasers are smaller than solid-state or gas lasers of comparable power. Their ownership costs are cheaper. Fibre lasers are dependable, have a high level of vibrational and thermal stability, and have a long lifespan.
GLOBAL FIBRE LASER ENGRAVER MARKET SIZE AND FORECAST
The Global Fiber Laser Engraver market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
The New 7610 Fibre Laser Marking System from Videojet Meets the Requirements of High-Speed Production Lines and Engraving Applications
As a global leader in coding, marking, and printing solutions, Videojet Technologies has expanded the scope of its existing line of fibre laser marking systems by introducing a 100-Watt fibre laser, the Videojet 7610, to meet the demands of manufacturers for high-speed applications like bottle cap printing and pull tab engraving.
The high-speed beverage, pharmaceutical, and extrusion producers who require power and speed when marking high-contrast codes on hard polymers and metals, such as aluminium cans, extruded tubes, and cables, have specifically built the 7610 fibre laser marking system.
In order to fulfil the demands of high-speed packing operations, the 7610 laser can mark more high legibility codes up to 122% faster than the preceding Videojet 7310 20-Watt fibre laser.
Firms in these sectors can utilise promotional coding solutions to establish direct contact with customers by putting clever variable codes on their goods. The new high-speed fibre laser can help users save money over conventional, more expensive advertising by reducing time, materials, and labour. Due to the lack of ink mess, using permanent laser marks for gaming codes is also growing in popularity.
The new 100-Watt fibre laser not only boasts quicker line speeds but also a huge marking window that gives more time to mark, boosting product throughput and productivity.
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