To get to smart manufacturing, the industry needs integration, simulation and analysis.
Like the United Nations’ international delegates who use interpreters to understand each other, robots, machines and other industrial components from various vendors speak different computer languages and need translators to help them communicate.
LIFT recently expanded the focus of its desire to “create innovations faster, better and cheaper” to the materials, processes and systems involved in moving innovations from concept to commercialization.
Rich, General Motors recently invested in 17 production-grade FDM printers, intending to use them for 3D-printed tooling. The term “tooling” is quite broad, however. Can you share details about what types of tooling GM and others are 3D printing, and why?
Risk-management technology is beginning to help manufacturers cope with the supply-chain upheaval caused by the COVID-19 pandemic, said Thomas Derry, CEO of the Institute for Supply Management: “We are a lot better at managing risk than even 10 years ago.”
Tacoma, Washington-based Tool Gauge manufactures precision metal and plastic components and assemblies for the aerospace industry.
Composite materials consist of fibers—in the aerospace industry, they are typically glass, carbon or kevlar—suspended in a matrix of epoxy resin.
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.
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.
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.