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The good beam quality of Low to medium power CW fiber lasers can be focused to small spots with galvanometers and long focal length lenses allowing remote laser welding. GTAW or TIG uses a non-consumable electrode and provides better process control than GMAW but any filler has to be added separately.PAW is faster than GTAW, but much slower than laser welding. IPG fiber lasers offer the best value, most stability and the highest productivity.
The automotive industry relies on IPG Photonics’ revolutionary fiber lasers as the ideal laser tool for common cutting, welding, marking, engraving and brazing processes, and as an enabling technology for value-added remote welding and seam welding and tube and profile welding … With IPG fiber lasers, laser welding has become a highly reliable, easily automated process that provides the highest part quality, typically at the lowest processing costs, and virtually maintenance free. This non-contact process with no wearing surfaces ensures the last part you produce is the same as the first.The inherently high speed of laser processing combined with the ease of high-speed automation and elimination of most post-processing steps provide significantly shorter cycle times than competing technologies. You are now leaving the IPG web site and being directed to a third party web siteIn-bore Laser Welding using 5 kW Fiber Laser (video courtesy of TWI)ABB Robotics - Laser Welding, Cutting & Forming with 3 kW fiber laserLaser Welding of Dissimilar Materials, stainless and copperRemote Laser Welding Workcell, scanning fiber laser systemLarge Pipe Orbital Laser Welding in Gas and Oil IndustryFiber lasers are now widely used for welding of a very wide range of thicker metals.
Learn More About Laser Welding For example, remote welding stations equipped with fiber lasers can weld complete door panels. The near infrared 1070 nm wavelength has definite advantages over the incumbent CO
Laser Welding Laser welding offers a fast, economical and contact-free alternative for welding a wide variety of metals in virtually every industry. Other examples also include hermetic welding of battery packs and pressure seals.
Laser welding is often the ideal solution for joining metals that require relatively fast processing speed, low heat input, low heat affected zone (HAZ) and minimal distortion. Multi-Axis Workstation for Welding, Cutting, Drilling and CleaningHigh-Precision Fiber Laser Welding System with CFR-21 Compliant SoftwareCompact Multi-Axis Workcell for Welding, Cutting and DrillingLaser Welding Machine for Continuous Tube and Profile ManufactureMid-Power Laser Beam Welding, Cutting, Marking and CleaningMulti-Function Laser Processing System for Medical Device and Aerospace PartsLow to Mid-Power Laser System for Welding, Cutting, Marking and CleaningDiscover how IPG’s laser technology can help solve your shop’s biggest challenges.© 2019 IPG Photonics Corporation All Rights Reserved.© 2019 IPG Photonics Corporation All Rights Reserved. They are built to last with their solid state monolithic design with 20x less degradation than competitors.
This webinar is ideal for those new to laser welding as well as anyone looking for a refresher course. This webinar is ideal for those new to laser welding as well as anyone looking for a refresher course.
Here you can contact our Sales Force, request literature, ask us a question. With IPG fiber lasers, laser welding has become a highly reliable, easily automated process that provides the highest part quality, typically at the lowest processing costs, and virtually maintenance free.
There are many advantages to using longer focal length lenses with a larger stand off as it increases the work area significantly.
Laser welding of polymers is an emerging technology well suited to IPG products. There are four common laser welding processes. Factor in the high-yield process, and IPG fiber laser welding delivers more good parts faster than alternate joining techniques.Together with higher-speed and lower-cost processing, the high uptime and availability of the laser welding system enabled by the zero-maintenance IPG fiber laser make for the lowest cost per part welding, and the fastest return on investment.Learn the basics of laser welding and how manufacturers are using fiber lasers to solve common welding challenges. Laser Welding Lasers provide contact-free, high-speed metal welding solutions for advanced manufacturing across countless industries. Enabled by unprecedented no-maintenance, high-reliability and low-cost IPG fiber lasers, laser welding systems have become the preferred welding solution for the manufacturing industry.GMAW or MIG is a traditional technique using a consumable electrode that works well for larger, badly fitting parts.
Laser welding offers an economical and contact-freeMaterial, component design and bond stress are a few factors that determine the joining method. Lasers provide contact-free, high-speed metal welding solutions for advanced manufacturing across countless industries.With IPG fiber lasers, laser welding has become a highly reliable, easily automated process that provides the highest part quality, typically at the lowest processing costs, and virtually maintenance free.Staying competitive today requires cost reductions, efficiency gains and repeatable part quality that cannot be met by traditional techniques that rely on increasingly scarce, highly-skilled craftsmen.
This webinar is ideal for those new to laser welding as well as anyone looking for a refresher course. Because the process is in a vacuum chamber, contaminant levels are very low.The high stability of the laser power and beam profile of the IPG fiber laser ensures a very repeatable process that delivers the same high-quality weld every time. The liquefied metal flows, solidifies and creates a small spot weld.