MKS announces Ophir BeamPeek at Laser World of Photonics
BeamPeek is an integrated beam analysis and power measurement system for fast, accurate, real-time measurement of lasers in additive manufacturing chambers
BeamPeek is an integrated beam analysis and power measurement system for fast, accurate, real-time measurement of lasers in additive manufacturing chambers
The IPM-10KW sensor measures powers from 100W to 11kW for wavelengths from 900 to 1,100nm and 10.6µm
MKS Instruments has announced the newest version of Ophir BeamSquared, the company's M2 laser beam propagation system that helps users optimise laser performance
The Ophir F80(120)A-CM-17 thermal sensor can measure high repetition rate lasers with very short pulses in the nano, pico, and femtosecond ranges
The Ophir BeamWatch Integrated 500 industrial beam characterisation system is a fully automated, non-contact laser measurement system designed welding applications that works with single mode lasers using long focal lengths
The Helios Plus has all the features of the Helios for measuring a wide range of high power lasers in production operations, as well as the ability to measure additional wavelengths, such as blue and green lasers used in copper welding in the automotive industry
When purchasing a highly advanced device for use in the workplace, such as a laser, learning how to properly apply, troubleshoot, and evaluate that device becomes very important.
This article will detail why a laser’s performance is important for industrial laser materials processing, and will serve as a guide for the right and wrong ways to apply, ascertain, evaluate, and take action on the laser performance data gathered.
One of the many products on show at Ophir’s booth (927) will be the LBS-300HP-NIR beam splitter, a compact device that enables camera-based beam profiling for high-power material processing lasers.
MKS Instruments has introduced the Ophir LBS-300HP-NIR Beam Splitter for high power NIR lasers
At booth 927 Ophir will showcase BeamWatch Integrated, a fully automated system designed to measure critical laser beam parameters in industrial production environments.
Lino Costa, Brian Canfield, and Trevor Moeller describe how ultrafast laser micromachining enables the creation of next-generation thrusters for nanosatellites
Christian Geiger and Tony Weiss highlight the need for advanced laser welding and process monitoring techniques to optimise bipolar plate joining
Gwenn Pallier and Yoan Di Maio highlight the challenges of laser surface texturing and propose a strategy for increasing its efficiency
Christian Nowroth, Jan Grajczak, and Sarah Nothdurft investigate the potential of using ultrasonic vibrations to improve the properties of dissimilar metal welds
Peter Kazansky and Yuhao Lei describe how direct laser writing of glass can enable 5D optical data storage and high-efficiency beam shaping
Leonardo Caprio, Claudio Orlandi and Ali Gӧkhan Demir assess the applicability of handheld laser welding for the flexible production of components with aesthetic requirements
Leonardo Caprio, Claudio Orlandi and Ali Gӧkhan Demir assess the applicability of handheld laser welding for the flexible production of components with aesthetic requirements
Matthew Dale on some of the key innovations seen at Formnext this year
Matthew Dale reports on the increase in 30kW+ flatbed cutting systems seen at EuroBLECH, Hannover this year
In a recent webinar, experts shared how additive technologies are already being deployed in specialist sub-sectors for volume manufacturing
Sharon Ann Holgate identifies the key advantages and developing applications of femtosecond lasers in the medical industry
Marcel Bachman, of BAM, describes the behaviour and influence of weld pool shape when joining thick materials
Anita Chandran explores the latest challenges facing manufacturers and users of laser marking systems
Researchers are investigating the potential of laser peening for the manipulation of titanium alloy sheets in the aerospace sector