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Effects of B content on structure evolution and magnetic properties of melt-spun Fe90-xPt10Bx alloys
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1.Key Laboratory of Materials Modification by Laser,Ion,and Electron Beams Ministry of Education,School of Materials Science and Engineering,Dalian University of Technology;2.Institute for Materials Research,Tohoku University,Sendai -,Japan

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TG132.2

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    Abstract:

    The structure evolution and magnetic properties of melt-spun Fe90-xPt10Bx (x = 20–40) alloys before and after annealing have been investigated. The increase of x from 15 to 25–30 changes the melt-spun structure from a composite composed of amorphous and fcc-FePt phases to a single amorphous phase. Further increasing x to 35 and 40 results in the formation of fcc-FePt + Fe2B + FeB and L10-FePt + FeB phases, respectively. After appropriate annealing, dual phases of fcc-FePt + Fe2B are formed for the alloys with x = 15–20, which have soft magnetic properties, while the nanocomposite structure consisting of L10-FePt together with Fe2B and /or FeB phases are obtained for the alloys with x = 25–40, which exhibit the characteristics of the nanocomposite magnets. The best hard magnetic properties are obtained for the alloy with x = 30 annealed at 823 K for 900 s, of which the coercivity, remanence, and maximum energy product are 173.2 kA/m, 1.20 T, and 88.3 kJ/m3, respectively. The good hard magnetic performance is due to the formation of a more fine and homogeneous L10-FePt /Fe2B nanocomposite structure with an average grain size of about 15 nm.

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[Yin Meiling, Ma Dianguo, Li Yanhui, Yin Chenliang, Qi Lin, Yubuta Kunio, Zhang Wei. Effects of B content on structure evolution and magnetic properties of melt-spun Fe90-xPt10Bx alloys[J]. Rare Metal Materials and Engineering,2021,50(12):4445~4449.]
DOI:10.12442/j. issn.1002-185X.20210011

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History
  • Received:January 07,2021
  • Revised:February 02,2021
  • Adopted:March 22,2021
  • Online: January 09,2022
  • Published: December 24,2021