The use of metal hydrides in powder blending for the production of NdFeB-type magnets
A blending process involving neodymium hydride has been used to improve the sintering characteristics of a Nd13Fe80.5B6.5 alloy. An addition of 1 at% of neodymium hydride made by blending of the powders, consistent with a final composition of Nd14Fe79.6B6.4, was sufficient to reduce the required sin...
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| Published in: | Journal of alloys and compounds Vol. 283; no. 1-2; pp. 282 - 288 |
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| Language: | English |
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01-02-1999
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| Abstract | A blending process involving neodymium hydride has been used to improve the sintering characteristics of a Nd13Fe80.5B6.5 alloy. An addition of 1 at% of neodymium hydride made by blending of the powders, consistent with a final composition of Nd14Fe79.6B6.4, was sufficient to reduce the required sintering temperature from 1130 to 1070°C; with resultant improvement in the coercivity due to less grain growth and better grain isolation. The addition of dysprosium hydride to a Nd14Fe79B7 alloy by blending resulted in a further enhancement of the coercivity, a 2 at% addition yielding an approximate doubling in the value of intrinsic coercivity. Examination of the microstructure of dysprosium hydride blended magnets showed the dysprosium to be concentrated in the outer regions of the matrix grains, with the centres being essentially dysprosium free. Hydrogen has also been employed in improving the milling characteristics of the high melting point elements niobium and vanadium. Fine powders of niobium and vanadium hydride were prepared and were successfully blended into magnets with an even distribution throughout the microstructure. These studies have shown that powder blending of metal hydrides is an effective way of both promoting liquid-phase sintering in low rare earth composition magnets and of modifying the grain boundary phases and hence the magnetic properties. |
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| AbstractList | A blending process involving neodymium hydride has been used to improve the sintering characteristics of a Nd sub 13 Fe sub 80.5 B sub 6.5 alloy. An addition of 1 at% of neodymium hydride made by blending of the powders, consistent with a final composition of Nd sub 14 Fe sub 79.6 B sub 6.4 , was sufficient to reduce the required sintering temperature from 1130 to 1070 deg C; with resultant improvement in the coercivity due to less grain growth and better grain isolation. The addition of dysprosium hydride to a Nd sub 14 Fe sub 79 B sub 7 alloy by blending resulted in a further enhancement of the coercivity, a 2 at% addition yielding an approximate doubling in the value of intrinsic coercivity. Examination of the microstructure of dysprosium hydride blended magnets showed the dysprosium to be concentrated in the outer regions of the matrix grains, with the centres being essentially dysprosium free. Hydrogen has also been employed in improving the milling characteristics of the high melting point elements niobium and vanadium. Fine powders of niobium and vanadium hydride were prepared and were successfully blended into magnets with an even distribution throughout the microstructure. These studies have shown that powder blending of metal hydrides is an effective way of both promoting liquid-phase sintering in low rare earth composition magnets and of modifying the grain boundary phases and hence the magnetic properties. A blending process involving neodymium hydride has been used to improve the sintering characteristics of a Nd13Fe80.5B6.5 alloy. An addition of 1 at% of neodymium hydride made by blending of the powders, consistent with a final composition of Nd14Fe79.6B6.4, was sufficient to reduce the required sintering temperature from 1130 to 1070°C; with resultant improvement in the coercivity due to less grain growth and better grain isolation. The addition of dysprosium hydride to a Nd14Fe79B7 alloy by blending resulted in a further enhancement of the coercivity, a 2 at% addition yielding an approximate doubling in the value of intrinsic coercivity. Examination of the microstructure of dysprosium hydride blended magnets showed the dysprosium to be concentrated in the outer regions of the matrix grains, with the centres being essentially dysprosium free. Hydrogen has also been employed in improving the milling characteristics of the high melting point elements niobium and vanadium. Fine powders of niobium and vanadium hydride were prepared and were successfully blended into magnets with an even distribution throughout the microstructure. These studies have shown that powder blending of metal hydrides is an effective way of both promoting liquid-phase sintering in low rare earth composition magnets and of modifying the grain boundary phases and hence the magnetic properties. |
| Author | Kianvash, A Harris, I.R Mottram, R.S |
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| Cites_doi | 10.1016/0925-8388(94)91125-8 10.1016/0022-5088(85)90380-7 10.1149/1.2425214 10.1021/ic50044a018 10.1016/0304-8853(87)90131-4 10.1021/j100807a033 10.1063/1.333572 10.1109/20.104581 10.1063/1.334629 10.1016/0022-5088(89)90084-2 10.1016/0304-8853(91)90782-6 10.1016/0304-8853(89)90324-7 10.1021/ja01528a002 10.1109/TMAG.1987.1065654 10.1109/20.489589 10.1007/BF02645848 |
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| Keywords | Metal hydrides Magnet production Blending Powder NdFeB magnets Sintering Preparation Rare earth alloys Iron alloys Experimental study Microstructure Neodymium alloys Magnets Boron alloys Transition element alloys |
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| Snippet | A blending process involving neodymium hydride has been used to improve the sintering characteristics of a Nd13Fe80.5B6.5 alloy. An addition of 1 at% of... A blending process involving neodymium hydride has been used to improve the sintering characteristics of a Nd sub 13 Fe sub 80.5 B sub 6.5 alloy. An addition... |
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| SubjectTerms | Applied sciences Blending Condensed matter: electronic structure, electrical, magnetic, and optical properties Cross-disciplinary physics: materials science; rheology Exact sciences and technology Magnet production Magnetic properties and materials Materials science Materials synthesis; materials processing Metal hydrides Metals. Metallurgy NdFeB magnets Permanent magnets Physics Powder Powder processing: powder metallurgy, compaction, sintering, mechanical alloying, and granulation Studies of specific magnetic materials |
| Title | The use of metal hydrides in powder blending for the production of NdFeB-type magnets |
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