91¿´Æ¬

What happens when you combine the strength of the American worker with investment in cutting-edge science and technology? Innovations capable of changing the world.

91¿´Æ¬Â® , a network of 14 manufacturing institutes across the United States, does just that. Each of its public-private partnerships enables precompetitive collaboration...

The increasing pace of change in technology-driven manufacturing calls for more immersive educational models.

For decades, our nation has invested billions of dollars in programs and initiatives to address the disconnection between workforce demand and supply.

However, the advanced manufacturing skills gap still exists. So that leaves the...

The first linear friction welder capable of full-sized part development in North America is now operational and ready for project work at Lightweight Innovations for Tomorrow ( ), a national manufacturing innovation facility operated by the American Lightweight Materials Innovation Institute, in Detroit, Michigan.

The friction welder, built...

The Lightweight Innovations for Tomorrow (LIFT) program is initiating a new phase for its Fast Forge program, which solicits new ideas for lightweight materials projects and puts together teams to develop and commercialize those new technologies more speedily than LIFT’s larger objectives.

LIFT is public-private partnership focused on developing...

Researchers at a Cambridge lab hope so. They’re developing fibers that would be integrated into the smart sweater of Christmases yet to come, enabling what was once a simple garment to store electricity, change colors, gather data about your health, or even help an acquaintance recall your name at a crowded holiday party.

The lab, part of a public...