Over the past decade, IMTS has been a good indicator of the changing status of additive manufacturing. The show’s floor space devoted to 3D printing expanded from 2014 to 2018, reaching pavilion status at the most recent show. It had been scheduled to grow even more at IMTS 2020 before the show’s cancellation.
Beginning around six years ago, one machine tool builder after another added laser cutting and even welding to their products’ already impressive repertoires.
The ML75P collects thousands of data samples from the vibrating tool tip within milliseconds.
Demand for automation and robots is surging in multiple industries, including automotive, writes the CEO of Thomas.com.
Manufacturing engineers, information technologists, and “smart” robots in flexible manufacturing cells are working ever more closely in manufacturing companies around the world.
Manufacturing Engineering last covered the pluses and minuses of combining additive and subtractive machining in detail in July 2017.
The impact of disruptive technology and the benefits of Industry 4.0 digitization of controls, machines and processes have been fully embraced by the metal removal segment of advanced manufacturing.
For the highest levels of competitive benchrest and extreme long-range (ELR) shooting, feats of precision manufacturing and machining are required for success. Like Formula 1 racing cars or PGA golfers’ clubs, world-class competition rifles are made with highly engineered precision parts.
Metal 3D printing can enable rapid, low cost iterations of new medical devices, since no tooling costs are involved.
When injection molding is cost-prohibitive, medical equipment manufacturers are turning to a marriage of two advanced methods—urethane casting and 3D printing.
