Ann, these are really interesting advances in composite materials. They are driven, of course, by the aerospace and defense industries. There are lots of other industries where these materials could be really useful, but they are generally conservative in their engineering.
Hopefully the legwork and advances pioneered in the A&D and government sector can translate back to other industry segments. Cross-pollination of research and technology is the key to making some of these new composite innovations more mainstream.
I agree, this is a case where R&D for military and space apps is potentially extendable to other areas, such as industrial and commercial aircraft uses. One of the most critical factors in that extension is expanding manufacturing capacity and tailoring it to the needs of high-volume production, which is a very different animal from the production of smaller quantities for military use.
This slideshow includes several versions of multi-materials machines, two different composites processes including one at microscale, and two vastly different metals processes. Potential game-changers down the line include three microscale processes.
UL is partnering with metals additive manufacturing (AM) supplier EOS to provide AM training to EOS's customers. It's designed to promote correct usage of AM technologies by OEMs and others in manufacturing.
To commemorate Earth Day, we take a look at the state of ocean plastic. If things don't change, by 2050 the oceans will contain more plastic than fish by weight. Here are the problems, as well as some solutions.
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