30 MGOe energy product in 40% Nd-reduced MM-Nd-Fe-B magnet CMI researchers at Ames National Laboratory conducted the research for this highlight
Bimodal packing of NdFeB and SmFeN improves energy product CMI researchers at Ames National Laboratory and Oak Ridge National Laboratory conducted the research for this highlight
Assessments predict improvements in environmental footprint, profit from printed NdFeB magnets CMI researchers at Idaho National Laboratory conducted the research for this highlight
Hydrogen-disproportionation-desorption-recombination under applied magnetic field CMI researchers at Oak Ridge National Laboratory and Ames Laboratory conducted the activity for this highlight
High-performance magnets based on Sm2Fe17 CMI researchers at Oak Ridge National Laboratory conducted the activity for this highlight
Ce2Fe14B-based magnet materials CMI researchers at Oak Ridge National Laboratory and Ames Laboratory conducted the activity for this highlight
New Ce-based ferromagnet with readily available coercivity CMI researchers at Ames Laboratory conducted the activity for this highlight
Prediction of high magnetic anisotropy material CeZrFe11 CMI researchers at Ames Laboratory conducted the activity for this highlight
Al-Ce nano extrusion outperforms usual high temp Al alloy CMI researchers at Oak Ridge National Laboratory and Idaho National Laboratory conducted the activity for this highlight
AM magnets enhance performance, reduce environmental impacts CMI researchers at Oak Ridge National Laboratory and Purdue University conducted the activity for this highlight
