TPT November 2016

I NDUS T RY

Improvements in laser cutting technology FONON Corp has brought a series of advancements to its latest generation of laser equipment for industrial applications that were previously underserved by the most common laser cutting technology. of any kind, and materials used in the aerospace and defence industries, can now access advanced laser cutting capabilities. Fonon’s latest laser cutting technology benefits from the

than one quarter the consumption of a comparable CO 2 cutting system, and the laser is maintenance-free and requires no consumables. “More than ever, manufacturers need to find ways to improve quality, speed and their financial bottom line, and there is a dramatic increase in demand for laser cutting machines that can efficiently work with reflective metals,” said Dmitriy Nikitin, CTO and interim CEO of Fonon Corporation. The advanced laser cutting technology is currently incorporated into the new models of the Titan FX line of large, flat-bed laser cutting machines, and is scheduled to be included as optional equipment in all cutting, marking and engraving products available under the Laser Photonics brand.

company’s understanding of material behaviour at transition temperatures – the point when the material changes properties, such as reflectivity and absorption, as it transitions from a solid to a liquid state. Fonon’s cutting machines incorporate advanced lasers that are specially configured for metal cutting, with variable laser beam output parameters, making them suitable for cutting a wide variety of metals, and metals with changing thicknesses. When compared to a CO 2 laser of equal wattage, Fonon laser cutting technology is claimed to be three times faster when cutting stainless, mild or galvanised steel. Power consumption by Fonon laser equipment is less

The most widely used conventional laser cutting machines incorporate CO 2 lasers, and have proven less effective when used to process certain metals and reflective materials. Due to their highly reflective nature, a large number of metals and materials cannot be efficiently cut with conventional CO 2 lasers, including aluminium, copper and brass. When processed by a CO 2 laser, these metals reflect a majority of the laser power, causing equipment damage due to back reflections. Industries that use these metals, including manufacturers of construction equipment, aluminium vehicles, kitchenware, copper and brass gaskets, food processing equipment

Fonon Corp – USA Email: products@fonon.us Website: www.fonon.us

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