Mechanochemically processed Nd−Fe−Co−Cr−B nanoparticles with high coercivity and reduced spin reorientation transition temperature
Nd-Fe-B magnets, possessing the highest energy product, are extensively used in cutting-edge applications, including electrical machines and electrical vehicles. An environmentally benign and cost effective synthesis method of Cr alloyed Nd2 (Fe,Co)14 B magnetic nanoparticles using a dry mechanochem...
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sg-ntu-dr.10356-1441472020-10-16T01:54:38Z Mechanochemically processed Nd−Fe−Co−Cr−B nanoparticles with high coercivity and reduced spin reorientation transition temperature Chaudhary, Varun Zhong, Yaoying Parmar, Harshida Tan, Xiao Ramanujan, Raju V School of Materials Science and Engineering Engineering::Mechanical engineering Nanoparticles Magnetic Properties Nd-Fe-B magnets, possessing the highest energy product, are extensively used in cutting-edge applications, including electrical machines and electrical vehicles. An environmentally benign and cost effective synthesis method of Cr alloyed Nd2 (Fe,Co)14 B magnetic nanoparticles using a dry mechanochemical process is reported. The method is solvent free, facile, energy efficient and scalable. The reduction of mixed oxides of Nd, Fe, Co, B and Cr is performed by using Ca. The coercivity (HC ) of the nanoparticles is found to depend on the dispersant content, with the highest value obtained for Nd2 (Fe11.25 Co2 Cr0.75 )B with 40 % CaO dispersant. The HC of isolated Nd2 (Fe11.25 Co2 Cr0.75 )B nanoparticles and nanoparticles embedded in a CaO matrix is found to be 11.5 kOe and 14.4 kOe, respectively, largest values for heavy rare earth free Nd-Fe-B nanoparticles with reasonable saturation and remanent magnetization, regardless of synthesis route. Considering the density of Nd2 Fe14 B, an energy product of 14.2 MGOe is obtained for the nanoparticles. The thermal coefficient of remanence and thermal coefficient of coercivity for aligned samples are -0.06 % and -0.29 %, respectively, in the temperature range between 100 K and 400 K. The spin reorientation temperature is found to be ∼30 K less than that of bulk Nd2 Fe14 B magnets. 2020-10-16T01:54:37Z 2020-10-16T01:54:37Z 2018 Journal Article Chaudhary, V., Zhong, Y., Parmar, H., Tan, X., & Ramanujan, R. V. (2018). Mechanochemically processed Nd−Fe−Co−Cr−B nanoparticles with high coercivity and reduced spin reorientation transition temperature. ChemPhysChem, 19(18), 2370-2379. doi:10.1002/cphc.201800318. 1439-7641 https://hdl.handle.net/10356/144147 10.1002/cphc.201800318 29878645 18 19 2370-2379 2379 en ChemPhysChem © 2018 Wiley‐VCH Verlag GmbH & Co. KGaA, Weinheim. All rights reserved. |
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Engineering::Mechanical engineering Nanoparticles Magnetic Properties Chaudhary, Varun Zhong, Yaoying Parmar, Harshida Tan, Xiao Ramanujan, Raju V Mechanochemically processed Nd−Fe−Co−Cr−B nanoparticles with high coercivity and reduced spin reorientation transition temperature |
| description |
Nd-Fe-B magnets, possessing the highest energy product, are extensively used in cutting-edge applications, including electrical machines and electrical vehicles. An environmentally benign and cost effective synthesis method of Cr alloyed Nd2 (Fe,Co)14 B magnetic nanoparticles using a dry mechanochemical process is reported. The method is solvent free, facile, energy efficient and scalable. The reduction of mixed oxides of Nd, Fe, Co, B and Cr is performed by using Ca. The coercivity (HC ) of the nanoparticles is found to depend on the dispersant content, with the highest value obtained for Nd2 (Fe11.25 Co2 Cr0.75 )B with 40 % CaO dispersant. The HC of isolated Nd2 (Fe11.25 Co2 Cr0.75 )B nanoparticles and nanoparticles embedded in a CaO matrix is found to be 11.5 kOe and 14.4 kOe, respectively, largest values for heavy rare earth free Nd-Fe-B nanoparticles with reasonable saturation and remanent magnetization, regardless of synthesis route. Considering the density of Nd2 Fe14 B, an energy product of 14.2 MGOe is obtained for the nanoparticles. The thermal coefficient of remanence and thermal coefficient of coercivity for aligned samples are -0.06 % and -0.29 %, respectively, in the temperature range between 100 K and 400 K. The spin reorientation temperature is found to be ∼30 K less than that of bulk Nd2 Fe14 B magnets. |
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School of Materials Science and Engineering |
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School of Materials Science and Engineering Chaudhary, Varun Zhong, Yaoying Parmar, Harshida Tan, Xiao Ramanujan, Raju V |
| format |
Article |
| author |
Chaudhary, Varun Zhong, Yaoying Parmar, Harshida Tan, Xiao Ramanujan, Raju V |
| author_sort |
Chaudhary, Varun |
| title |
Mechanochemically processed Nd−Fe−Co−Cr−B nanoparticles with high coercivity and reduced spin reorientation transition temperature |
| title_short |
Mechanochemically processed Nd−Fe−Co−Cr−B nanoparticles with high coercivity and reduced spin reorientation transition temperature |
| title_full |
Mechanochemically processed Nd−Fe−Co−Cr−B nanoparticles with high coercivity and reduced spin reorientation transition temperature |
| title_fullStr |
Mechanochemically processed Nd−Fe−Co−Cr−B nanoparticles with high coercivity and reduced spin reorientation transition temperature |
| title_full_unstemmed |
Mechanochemically processed Nd−Fe−Co−Cr−B nanoparticles with high coercivity and reduced spin reorientation transition temperature |
| title_sort |
mechanochemically processed nd−fe−co−cr−b nanoparticles with high coercivity and reduced spin reorientation transition temperature |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/144147 |
| _version_ |
1683492947094405120 |