Additive manufacturing is progressing but faces challenges before it is widely implemented, an executive of HP Inc. said in an interview.
Fair Lawn, NJ. Sean Holt, head of Sales Area Americas for Sandvik Coromant, announced a new Sandvik Coromant Center will open in Mebane, NC, a geography heavy with aerospace and automotive manufacturing and a strong culture of innovation.
The concepts Industry 4.0 in Europe, Made in China 2025 and smart manufacturing in the U.S. “all share a common goal—to create cyber-physical systems to innovate in manufacturing,” IDC's Bob Parker said at Dassault Systèmes’ recent Manufacturing in the Age of Experience event. “And it’s really dependent on a set of new technologies like IoT (the Internet of Things) and artificial intelligence (AI).”
The $150 million “factory of the future” that the Swiss innovator ABB announced a year ago is becoming reality in this enormous city’s Pudong New Area.
Manufacturers of all sizes see an uptick in productivity after adding a factory within a factory via an automated machining cell. The cells are small-scale, clearly defined production units, often for a family of similar parts or a product, and they typically include a robotic arm and one or more machine tools.
Pittsburgh International Airport has announced plans for Neighborhood 91, a development that condenses and connects all components of the additive manufacturing/3-D printing supply chain into one production “neighborhood” concept.
There is still a lot of talk about breaking down the “silos” within a manufacturing enterprise. Siemens, like other software providers, is trying to address the problem by offering toolsets that are easier to integrate and work together.
In the age of Industry 4.0 and the digital thread, computer-aided design (CAD) data exchange should be open and seamless because it happens daily in a multi-tiered supplier ecosystem and so much interoperability depends on it. But we are not there yet.
When it comes to the production of high-precision parts for industries ranging from aerospace to medical, grinding remains the best, most cost-effective approach to obtaining fine surface finishes and tight tolerances.
3DMEDNET, publisher of the journal 3D Printing in Medicine, produced a webinar with useful information for anyone in the throes of setting up and running an in-hospital 3D printing service.