Magnetic fields slow carbon migration in iron by altering energy barriers, study shows

Professor Dallas Trinkle and colleagues have provided the first quantitative explanation for how magnetic fields slow carbon ...
EurekAlert!

Improving rare-earth-free magnets through microstructure engineering

Researchers from the Department of Energy’s Critical Materials Institute (CMI) and Ames National Laboratory have improved the properties of a rare-earth-free permanent magnet material and demonstrated ...
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Breakthrough in Magnet Modeling Paves Way for Sustainable Energy Applications

A new tomography-based approach can reconstruct the real microstructure of ultrafine-grained Nd-Fe-B magnets in large-scale models. Micromagnetic simulations on the tomography-based models reproduced ...
EurekAlert!

Modern calculation answers decades-old question

Materials scientists from The Grainger College of Engineering have provided the first quantitative explanation for a phenomenon first observed in iron in the 1970s.
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Microstructural Changes in Steel Under Various Heat Treatments

The properties of steel can be improved in terms of fatigue, weldability, hardness, wear and corrosion resistance, ductility, and tensile strength by either alloy addition or heat treatment processes.