Anyone who’s worked with wind turbine blades or just seen one up close can attest to the massive size of these clean-energy workhorses. Ever thought about what happens to that costly, high-tech material once the blade reaches the end of its lifespan in 20 years or so?
The current COVID-19 experiences have energized many conversations about our futures in the post-COVID world, and that includes the future of manufacturing.
Smart manufacturing is now being rapidly adopted by a much wider range of business sectors.
Long gone are the days where the only solution to human error was human correction. As engineers today, we have access to smart technology that no other generation could have ever imagined.
The COVID-19 pandemic has caused major upheavals in manufacturing processes to avoid contamination while keeping supply chains intact.
To get to smart manufacturing, the industry needs integration, simulation and analysis.
In August, Rob Sullivan had an installation scheduled for two of his autonomous mobile robots at the Deutsche Post DHL Group’s Innovation Center in Troisdorf, Germany.
Like the United Nations’ international delegates who use interpreters to understand each other, robots, machines and other industrial components from various vendors speak different computer languages and need translators to help them communicate.
Marposs said its Artis CTM Tool and Process Monitoring System has played a role in a 2020 Henry Ford Technology Award (HFTA) winning program focused on Torque Monitoring of Gear Machining Processes.
Until 2018, a West Coast manufacturer of gaming headsets and peripherals used approximated mesh CAD/CAM to size parts, tightening tolerance parameters up to 10 times smaller than the standard setting.