Transforming the Fabric of Manufacturing: AFFOA January 19, 2023 The power of highly functional fabric manufacturing brings new possibilities to life.
The Rx for Medical Manufacturing: Micro-Cutting February 29, 2024 Laser micro-cutting can increase precision and enable contactless cutting for machines, leading to higher-quality products.
Pushing the Limits with Ceramics April 24, 2023 Solutions for ceramic machining—and machining ceramics.
BioFabUSA - Fueling the U.S. Biomanufacturing Economy June 21, 2023 Saving lives and transforming healthcare, BioFabUSA accelerates the development of regenerative treatments and creates a manufacturing ecosystem to produce curative therapies
NextFlex-Building the Next BIG Thing in Flexible Hybrid Electronics April 12, 2023 Piecing together FHE commercialization in the U.S.
Let’s Get Wired! April 7, 2023 Visibility, uptime, profits, and part quality: why a networked manufacturing floor is no longer a nice-to-have
From Everett to Livermore April 6, 2023 Taking years of additive manufacturing experience in entirely new directions
Cool and Interesting Things June 22, 2023 For three decades, Darin Gray has spent his days teaching young people to share ideas, learn cool stuff, and above all, make a difference
Art to Heart April 7, 2023 Improving outcomes for the most precious of all surgical patients – children
Hybrid Technique from Purdue Aims to Produce Stronger, Corrosion-Resistant Nickel February 12, 2020 Nickel is a widely used metal in the manufacturing industry for both industrial and advanced material processes. Now, Purdue University innovators have created a hybrid technique to fabricate a new form of nickel that may help the future production of lifesaving medical devices, high-tech devices and vehicles with strong corrosion-resistant protection.
