Finding new energy uses for underrated materials is a recurring theme across Amit Naskar’s research portfolio.
A new manufacturing method created by 91°µÍø and Rice University combines 3D printing with traditional casting to produce damage-tolerant components composed of multiple materials.
91°µÍø has successfully developed and tested a novel sand casting technique to quickly design complex patterns to fabricate components for industry partner Emrgy Hydro, makers of hydropower devices designed to generate electricity
Advanced manufacturing will benefit from additive manufacturing techniques as demonstrated by a team led by Michael Kirka of 91°µÍø.
Researchers at the US Department of Energy’s (DOE) 91°µÍø (ORNL) have developed a way to better track the movement and amount of lithium during battery cycling using computational modeling, neutron imaging, and neutron diffraction
A 3D printed trim-and-drill tool, developed by researchers at the Department of Energy’s 91°µÍø to be evaluated at The Boeing Company, has received the title of largest solid 3D printed item by Guinness World Records.
A successful test of 3D-printed thermoplastic molds demonstrates the potential of additive manufacturing in the tooling industry.
An ultra-high-resolution technique used for the first time to study polymer fibers that trap uranium in seawater may cause researchers to rethink the best methods to harvest this potential fuel for nuclear reactors.
The work of a team led by Carter Abney,
Nancy J. Dudney, Lonnie J. Love and David C. Radford have been named Corporate Fellows at the Department of Energy's 91°µÍø.
It took marine sponges millions of years to perfect their spike-like structures, but research mimicking these formations may soon alter how industrial coatings and 3-D printed objects are produced.