Advanced magnetic materials fusion research at VCU College of Engineering receives $500K grant from Virginia Clean Energy Innovation Bank
Funding will advance critical research in magnetic materials needed for compact fusion reactors
Supporting fusion energy system development in the state, the Virginia Commonwealth University (VCU) College of Engineering will acquire an ultrasonic metal-powder atomizer to advance critical research in magnetic materials needed for compact fusion reactors. Made possible by a $500,000 grant from the Virginia Clean Energy Innovation Bank (VCEIB), the funds support VCU Engineering’s Advanced Magnetic Materials Processing Laboratory (AM2P), enabling VCU Engineering to establish Virginia’s first in-state capability for producing custom, high-purity metal powders tailored for next-generation fusion reactor components.
“Clean-energy innovations from fusion to grid-scale technologies demand materials that can operate under extreme conditions while remaining manufacturable at scale,” said Radhika Barua, Ph.D., assistant professor in the Department of Mechanical & Nuclear Engineering and director of AM2P. “This project will be transformative as we can now design advanced alloy compositions, produce them in-house, and immediately integrate them into additively manufactured components—dramatically accelerating the innovation cycle.”
This project positions Virginia to capture a share of the rapidly expanding fusion materials and advanced manufacturing market, projected to surpass $8 billion annually by 2035. Also, this investment is expected to unlock more than $4 million in additional federally competitive research funding over the next four years.
“This is a smart, high-impact investment in Virginia’s energy future,” said Glenn Davis, director of the Virginia Department of Energy. “By establishing in-state powder atomization and advanced materials capability, we’re positioned to become a critical node in the emerging fusion supply chain while strengthening our defense and clean-energy industrial base.”
This comes on the heels of last year’s announcement that Commonwealth Fusion Systems will make a multibillion-dollar investment to build the world’s first grid-scale commercial fusion power plant in Chesterfield County.
The AM2P Lab has emerged as one of the few academic research centers in the nation with deep expertise in additively manufactured permanent magnets, soft magnetic alloys and magnetocaloric materials.
“This equipment and research will not only support fusion activities but also open doors for collaborative activities with multiple federal agencies including the Army Research Laboratory, the Air Force Office of Scientific Research and the Office of Naval Research,” said Arvind Agarwal, Ph.D., professor and chair of the Department of Mechanical & Nuclear Engineering.
“This grant accelerates Virginia’s leadership in advanced nuclear and fusion manufacturing while strengthening workforce readiness,” said Julianne Szyper, deputy director of the Virginia Department of Energy. “By connecting Virginia’s academic talent with industry and national lab partners, we’re creating an ecosystem that drives innovation, supports high-quality careers and positions the Commonwealth as a competitive hub for clean-energy technologies like fusion.”
The Department of Mechanical and Nuclear Engineering provides undergraduate and graduate students with the opportunity to perform real-world research as soon as they enroll. From applying material science to additive manufacturing techniques to optimizing coolant systems for nuclear reactors and more, students gain understanding of many important engineering topics. Browse videos and recent news from the Department of Mechanical and Nuclear Engineering to discover how the College of Engineering at Virginia Commonwealth University prepares the next generation of scientists and engineers for the challenges of the future.
Categories Mechanical & Nuclear Engineering, Research Grants