Synthesis, magnetic properties and magnetostriction of Pr(Fe0.75Co0.15Cu0.01Nb0.04B0.05)1.93 bulk nanocrystalline synthesized under high pressure

Synthesis, magnetic properties and magnetostriction of Pr(Fe0.75Co0.15Cu0.01Nb0.04B0.05)1.93 bulk nanocrystalline synthesized under high pressure

Bulk nanocrystalline Pr(Fe0.75Co0.15Cu0.01Nb0.04B0.05)1.93 alloys were synthesized by annealing its melt-spinning ribbons under different pressures and temperatures. It was demonstrated that the average grain size decreases with increasing pressure from 3 GPa to 6 GPa under the same annealing temper...

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Main Authors: Cheng-Chao Hu, Yang-Guang Shi, Da-Ning Shi, Long-Qing Chen
Format: Article
Language:English
Published: AIP Publishing LLC 2016-05-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.4943929
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spelling doaj-8e935ecbebfa4240a10cce2933f59aee2020-11-24T23:56:08ZengAIP Publishing LLCAIP Advances2158-32262016-05-0165056215056215-710.1063/1.4943929107691ADVSynthesis, magnetic properties and magnetostriction of Pr(Fe0.75Co0.15Cu0.01Nb0.04B0.05)1.93 bulk nanocrystalline synthesized under high pressureCheng-Chao Hu0Yang-Guang Shi1Da-Ning Shi2Long-Qing Chen3Department of Applied Physics, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, ChinaDepartment of Applied Physics, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, ChinaDepartment of Applied Physics, Nanjing University of Aeronautics and Astronautics, Nanjing 210016, ChinaDepartment of Materials Science and Engineering, The Pennsylvania State University, University Park, Pennsylvania 16802, USABulk nanocrystalline Pr(Fe0.75Co0.15Cu0.01Nb0.04B0.05)1.93 alloys were synthesized by annealing its melt-spinning ribbons under different pressures and temperatures. It was demonstrated that the average grain size decreases with increasing pressure from 3 GPa to 6 GPa under the same annealing temperature of 853 K but increases with increasing temperature from 823 K to 923 K under the same annealing pressure of 6 GPa. A negative correlation between the coercivity and average grain size was found in the present investigated system. Grain refinement without losing the advantage of volume fraction of magnetostrictive phase offers the sample annealed under 6 GPa and 853 K the optimized magnetostrictive property, which might make it potential material for magnetostrictive application.http://dx.doi.org/10.1063/1.4943929
collection DOAJ
language English
format Article
sources DOAJ
author Cheng-Chao Hu
Yang-Guang Shi
Da-Ning Shi
Long-Qing Chen
spellingShingle Cheng-Chao Hu
Yang-Guang Shi
Da-Ning Shi
Long-Qing Chen
Synthesis, magnetic properties and magnetostriction of Pr(Fe0.75Co0.15Cu0.01Nb0.04B0.05)1.93 bulk nanocrystalline synthesized under high pressure
AIP Advances
author_facet Cheng-Chao Hu
Yang-Guang Shi
Da-Ning Shi
Long-Qing Chen
author_sort Cheng-Chao Hu
title Synthesis, magnetic properties and magnetostriction of Pr(Fe0.75Co0.15Cu0.01Nb0.04B0.05)1.93 bulk nanocrystalline synthesized under high pressure
title_short Synthesis, magnetic properties and magnetostriction of Pr(Fe0.75Co0.15Cu0.01Nb0.04B0.05)1.93 bulk nanocrystalline synthesized under high pressure
title_full Synthesis, magnetic properties and magnetostriction of Pr(Fe0.75Co0.15Cu0.01Nb0.04B0.05)1.93 bulk nanocrystalline synthesized under high pressure
title_fullStr Synthesis, magnetic properties and magnetostriction of Pr(Fe0.75Co0.15Cu0.01Nb0.04B0.05)1.93 bulk nanocrystalline synthesized under high pressure
title_full_unstemmed Synthesis, magnetic properties and magnetostriction of Pr(Fe0.75Co0.15Cu0.01Nb0.04B0.05)1.93 bulk nanocrystalline synthesized under high pressure
title_sort synthesis, magnetic properties and magnetostriction of pr(fe0.75co0.15cu0.01nb0.04b0.05)1.93 bulk nanocrystalline synthesized under high pressure
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2016-05-01
description Bulk nanocrystalline Pr(Fe0.75Co0.15Cu0.01Nb0.04B0.05)1.93 alloys were synthesized by annealing its melt-spinning ribbons under different pressures and temperatures. It was demonstrated that the average grain size decreases with increasing pressure from 3 GPa to 6 GPa under the same annealing temperature of 853 K but increases with increasing temperature from 823 K to 923 K under the same annealing pressure of 6 GPa. A negative correlation between the coercivity and average grain size was found in the present investigated system. Grain refinement without losing the advantage of volume fraction of magnetostrictive phase offers the sample annealed under 6 GPa and 853 K the optimized magnetostrictive property, which might make it potential material for magnetostrictive application.
url http://dx.doi.org/10.1063/1.4943929
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