Fiber laser welding continues to grow as it improves in weld quality, reliability and performance. Many fiber laser welding applications are autogenous, where the weld is formed entirely by melting parts of the base metal and no additional filler wire or powder is used
Laser marking ensures safe traceability as well as counterfeit protection.
While laser marking and engraving are well-established processes, innovations and investments in the sector are continuing to push performance boundaries.
From producing lithium-ion batteries to processing sheetmetal, new laser welding systems are “pushing the envelope” of light absorption, beam control, speed and programming flexibility.
Metrology developer Jenoptik AG (Jena, Germany) on Thursday officially opened its new North American technology campus here that will focus on the industrial metrology and laser processing systems used primarily by its automotive OEM and Tier customers.
You don’t have to look too far to find the reasons for the growth of fiber lasers for production applications. On price per watt, beam quality, electrical consumption, and maintainability required, fiber lasers typically score the lowest on the cost side and very high on the performance side.
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Cobots, like other robot equipment, started in material handling applications. However, this year, Universal Robots is introducing welding applications and other heavy duty metal fabrication.
An adaptive manufacturing strategy gets every team essential to a product’s success communicating and collaborating in real time.
Businesses are starting to recover from the pandemic—some more than others—and the need to deliver a seamless experience from online to the store is requiring a rethink of entire supply chains.
