Effects of grain growth blocking in annealed metalloid-poor Fe–M–Cu–B–Si ribbons (M = Nb, Mo, V)

Effects of grain growth blocking in annealed metalloid-poor Fe–M–Cu–B–Si ribbons (M = Nb, Mo, V)

Omitting of the Fe–Nb–Cu–B–Si Finemet standard grain-growth blocker (Nb, Mo) in modern high-induction very Fe-rich nanocrystalline ribbons limits the necessary thermal treatment to a narrow range. To see why is this necessary, the grain-growth blocking has been investigated in materials between mode...

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Veröffentlicht in:Journal of alloys and compounds 2015-11, Vol.648, p.527-533
Hauptverfasser: Butvinová, B., Butvin, P., Kuzminski, M., Slawska-Waniewska, A., Mat'ko, I., Švec, P., Kadlečíková, M., Hubeňák, M., Janičkovič, D.
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Sprache:eng
Schlagworte:
Alloys
Annealing
Blocking
Boron
Copper
Ferrous alloys
Magnetic domain structure
Magnetic properties
Nanocrystalline alloys
Niobium
Ribbons
Silicon
Soft-magnetic materials
Surface properties
Vanadium
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container_end_page 533
container_issue
container_start_page 527
container_title Journal of alloys and compounds
container_volume 648
creator Butvinová, B.
Butvin, P.
Kuzminski, M.
Slawska-Waniewska, A.
Mat'ko, I.
Švec, P.
Švec, P.
Kadlečíková, M.
Hubeňák, M.
Janičkovič, D.
description Omitting of the Fe–Nb–Cu–B–Si Finemet standard grain-growth blocker (Nb, Mo) in modern high-induction very Fe-rich nanocrystalline ribbons limits the necessary thermal treatment to a narrow range. To see why is this necessary, the grain-growth blocking has been investigated in materials between modern high-induction and Finemet – in metalloid-poor Fe–M–Cu–B–Si (M = Nb, Mo, V) alloys. Only Nb has been found to allow wide range annealing and preserve fine grain, Mo does not and V also enables precipitation of Fe boride. Mo and V containing alloys thus lose their magnetic softness at annealing at and above 480 °C and 1 h mostly due to grain growth. Neither of M effectively hinders preferred surface bcc-Fe crystallization leading to macroscopic internal stress and slant loops when annealing in Ar at T ≥ 480 °C. [Display omitted] •Metalloid-poor Fe–M–Cu–B–Si (M = Nb, Mo, V) annealed ribbons were investigated.•Only Nb blocks the bcc-Fe grain growth to preserve magnetic softness at annealing.•Prolonged higher temperature annealing is unusable without grain-growth blocking.•None of M hinders effectively the preferred surface bcc-Fe crystallization.
doi_str_mv 10.1016/j.jallcom.2015.06.232
format Article
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To see why is this necessary, the grain-growth blocking has been investigated in materials between modern high-induction and Finemet – in metalloid-poor Fe–M–Cu–B–Si (M = Nb, Mo, V) alloys. Only Nb has been found to allow wide range annealing and preserve fine grain, Mo does not and V also enables precipitation of Fe boride. Mo and V containing alloys thus lose their magnetic softness at annealing at and above 480 °C and 1 h mostly due to grain growth. Neither of M effectively hinders preferred surface bcc-Fe crystallization leading to macroscopic internal stress and slant loops when annealing in Ar at T ≥ 480 °C. 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[Display omitted] •Metalloid-poor Fe–M–Cu–B–Si (M = Nb, Mo, V) annealed ribbons were investigated.•Only Nb blocks the bcc-Fe grain growth to preserve magnetic softness at annealing.•Prolonged higher temperature annealing is unusable without grain-growth blocking.•None of M hinders effectively the preferred surface bcc-Fe crystallization.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.jallcom.2015.06.232</doi><tpages>7</tpages></addata></record>
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subjects Alloys
Annealing
Blocking
Boron
Copper
Ferrous alloys
Magnetic domain structure
Magnetic properties
Nanocrystalline alloys
Niobium
Ribbons
Silicon
Soft-magnetic materials
Surface properties
Vanadium
title Effects of grain growth blocking in annealed metalloid-poor Fe–M–Cu–B–Si ribbons (M = Nb, Mo, V)
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