Full line of fiber and diode laser machines for cutting and hardening
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 deburring and finishing of machined and fabricated parts is a necessary but often disregarded step in the manufacturing process.
Manufacturers need to create more production setups as batch sizes get smaller. Skilled labor continues to be hard to hire and keep. Higher levels of automation are needed, not just in material handling but also in fabricating, machining, assembly, and inspection.
Whether driven by the reduction of in-shop personnel due to layoffs or to maintain social distancing guidelines into the future, many machine shops will likely be re-evaluating ways to eliminate labor-intensive manual operations if they can be automated instead.
While recent advancements in machining centers have allowed for increased capability around high-volume operations, there are several factors that still necessitate the need for grinding.
The CEO of an artificial intelligence company discusses how AI affects workers and how AI can be deployed well.
Avoiding product defects—and quickly finding and fixing those that occur—is a critical priority for all manufacturers.
Despite the challenges of COVID-19, research and expert analytics predict market growth in the near future for manufacturing in numerous industries, many of which rely on parts and components that require precision grinding.
Christoph Fedler, project director for equipment management at Rolls-Royce Germany, was facing a challenge: He needed to increase the available capacity of the prime discipline at the Oberursel facility, namely micrometer-precise grinding of curvic couplings.