News & Highlights
Research Highlight
CMI-trained researcher moves from AI to neutrons
In the News
Mini hydro company raises $18M to generate power in canals
Research Highlight
Direct reduction of cerium oxide advances Al-Ce alloying
Research Highlight
Coefficient of thermal expansion (CTE) determination of Al-Ce alloys via combinatorial thin-film synthesis
Research Highlight
Al-Ce alloys provide economical silicon-free Al-casting solutions
Publications
Ternary interactions and implications for third element alloying potency in Al–Ce-based alloys
The efficacy of replacing metallic cerium in aluminum–cerium alloys with LREE mischmetal
Developments in aluminum-scandium-ceramic and aluminum-scandium-cerium alloys
Improved high-temperature aluminum alloys containing cerium
Orlando Rios at University of Tennessee Knoxville (UTK) leads the CMI project "Science-Enabling Diverse Value Chain Product from Aluminum-Cerium Alloys"
This work targets specific science problems to enable diverse value chain development for aluminum-cerium alloys, identifying interfacial structure and reaction thermodynamics for better strength at elevated temperature, higher ductility, and lower cost. The project investigates the use of rare earth element precursor compounds as feedstock for direct reduction alloying. This technology can be used for large volume casting technologies like die casting and high-performance applications such as turbochargers, pistons, and cylinder heads. If successfully developed, this technology will streamline processing of lanthanide precursor compounds improving economic competitiveness and providing a domestic demand stream through aluminum alloying.
Related information:
Leadership Development: Scott McCall
R&D 100 Award
TechConnect Innovation Award
