Before the coronavirus pandemic upended normal life and essentially shut down commercial airliners, the aviation industry had a projected need for 40,000 new aircraft—planes, helicopters, air taxis, and unmanned aerial vehicles—in the next 20 years.
A burr could become a danger point in the turbine engine. Classical manufacturing processes like turning, milling and grinding can lead to burr formation and unwanted sharp edges.
In spite of advancing digitalization, manual workstations are still indispensable because automation is not always profitable with small batch quantities or complex processes.
3D Systems said the Food and Drug Administration (FDA) has provided 510(k) clearance for maxillofacial surgical guides 3D printed using its LaserForm Ti and DuraForm ProX PA materials.
The concept of the digital twin in A&D was born in the 1970s, when NASA began employing full-scale virtual mock-ups of space capsules to forecast the performance of machines in outer space.
The service bureaus that grew in lockstep with 3D printing’s early rise in popularity have largely evolved into one-stop shops for a variety of machined, fabricated, plastic-injection molded, and of course 3D-printed parts.
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?
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.