Novel SmCo manufacturing method improves economic competitiveness CMI researchers at Ames Laboratory, Iowa State University and Purdue University 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
Rationally designed rare earth separation by selective oxalate solubilization CMI researchers at Ames 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.
Modeling mechanical properties in Sm-Co magnets CMI researchers at Ames Laboratory used microstructural modeling to reveal an optimum concentration of a strengthening phase necessary for enhanced mechanical properties.
Potential 20+ MGOe Ce-based Co-lean magnet CMI researchers at Ames Laboratory grew a single crystalline material with high magnetic properties at high temperature