Semihard iron-based "gap" magnets CMI researchers at Oak Ridge National Laboratory conducted the research for this highlight
Dual powder approach yields 29 MG-Oe in La- and Co- substituted Nd2Fe14B The CMI researchers at Ames Laboratory conducted the research for this highlight
Sm2Fe17N3 as a cost-effective high performance magnet CMI researchers at Ames Laboratory conducted the research for this highlight
Ce-based magnet with (BH)max of 18+ MGOe CMI researchers at Ames Laboratory conducted the research for this highlight
Ce-substituted SmCo5 retains huge magnetic anisotropy CMI researchers at Ames Laboratory conducted the research for this highlight
High-performance critical-element-free permanent magnets CMI researchers at Ames Laboratory conducted the research for this highlight
Sm2Fe17N3 as a cost-effective high-performance magnet CMI researchers at Ames Laboratory conducted the research for this highlight
Critical hydrogen pressure for HDDR-formed NdFeB powder CMI researchers at Ames Laboratory and Oak Ridge National Laboratory conducted the research for this highlight
Novel fabrication for high-performance small magnets CMI researchers at Ames Laboratory and Lawrence Livermore National Laboratory conducted the research for this highlight
Heterogeneous grain engineering overcomes mechanical fragility in Sm-Co magnets A CMI researchers at Ames Laboratory collaborated with industry partner Energy Electron Corporation on the research for this highlight.