nLIGHT Launches Programmable Laser for Metal Additive Manufacturing
VANCOUVER, Wash., November 4, 2020 - nLIGHT, Inc. (Nasdaq: LASR), a global leader in semiconductor and fiber lasers, today announced the introduction of the AFX-1000 for the Metal Additive Manufacturing market. Leveraging our innovative programmable laser technology, the AFX-1000 is a high-power fiber laser that can switch between a single-mode beam and other beam profiles without the use of free space optics.
“The AFX-1000 is the world’s first single-mode fiber laser with the beam shaping function performed entirely inside the laser. Developed for additive manufacturing, AFX enables OEMs and end-users to significantly improve build rates, thereby reducing cost per part,” said Rob Martinsen, nLIGHT CTO and general manager for Additive Manufacturing. “We expect AFX to fundamentally change the economics of AM and promote broader adoption for series production.”
The AFX ring mode geometry stabilizes large melt pools, reducing the amount of soot and spatter to improve material quality and production yields. Discrete AFX beam profiles can be selected on-the-fly as quickly as 30 times per second, offering new degrees of freedom to control melting and solidification rates, physical microstructure and thermal strain that can lead to stress fractures, a frequent cause of part failure. Ring mode processing with a single AFX laser has been shown to produce “fully dense” material (>99.5%) at build rates exceeding 100 cm3/hr with a single laser.
The introduction of the AFX-1000 continues nLIGHT’s leadership in high power laser innovation. Learn more about nLIGHT fiber lasers.
About nLIGHT
nLIGHT, Inc. is a leading provider of high-power semiconductor and fiber lasers for industrial, microfabrication, aerospace and defense applications. Our lasers are changing not only the way things are made but also the things that can be made. Headquartered in Vancouver, Washington, nLIGHT employs over 1,200 people with operations in the U.S., China and Finland. For more information, please visit www.nlight.net.