Extreme complexity is inherent to jet engines of all sizes, from those on a Boeing 777x to ones that power the smallest drone.
It has become far too rare for manufacturers’ visions of an IIoT-fueled utopia to survive contact with reality. A Cisco survey finds that nearly 75 percent of Industrial Internet of Things (IIoT) projects are failing.
As businesses across the globe are returning to work amid the COVID-19 pandemic, many manufacturers are reconsidering policies and procedures to ensure worker safety and adhere to new regulations in the post-pandemic environment.
If you were to rebuild your manufacturing business today, would you build it in the same way, or would you shape it differently to address new challenges and future innovations?
Hockley Pattern & Tool, Halesowen, England, is an example of a company dedicated to the art and science of making perfect tooling.
To a discrete manufacturer, process manufacturing is odd territory indeed. It’s a world in which textiles, pharmaceuticals, chemicals, plastics, and food and beverage are produced en masse.
After three years of work, military researchers are near the end of a project to find a faster, cheaper way to make tools for large aerospace parts like skins for wings and fuselages.
Solid-carbide round tools have seemingly been around forever; before them, high-speed steel (HSS) tools ruled the roost, and after them a growing selection of alternative processes like indexables, EDM, waterjet and now additive manufacturing emerged as competition.
In an announcement orchestrated from Barcelona, California-based HP in June announced an expansion of its 3D printing business.
If you ask any number of manufacturers exactly what they felt the first time they crashed a stationary machine tool or dropped portable measuring equipment, you’re bound to get a range of answers—though dread, terror and even nausea will almost certainly be on the list of responses.