مرکز منطقه ای اطلاع رساني علوم و فناوري - Dependence of Soft Magnetic Properties of <inline-formula> <img src="/images/tex/21722.gif" alt="{\\rm Fe}_{81-85.5}{\\rm Si}_{2}{\\rm B}_{10}{\\rm P}_{1.5-6}{\\rm Cu}_{1}"> </inline-formula> Alloys on P Content

DocumentCode :

75591

Title :

Dependence of Soft Magnetic Properties of ${\\rm Fe}_{81-85.5}{\\rm Si}_{2}{\\rm B}_{10}{\\rm P}_{1.5-6}{\\rm Cu}_{1}$ Alloys on P Content

Author :

Zhenhua Dan ; Yamada, Y. ; Makino, Akihiro

Author_Institution :

Inst. for Mater. Res., Tohoku Univ., Sendai, Japan

Volume :

Issue :

fYear :

2014

fDate :

Apr-14

Firstpage :

Lastpage :

Abstract :

Effects of P content in amorphous and nanocrystalline FeSiBPCu soft magnetic alloys were investigated by comparing the corresponding change in the saturation magnetic flux density and coercivity. Ribbons were prepared using a high induction melting and melt spinning method. As-quenched Fe_85.5Si₂B₁₀P_1.5Cu₁ alloy consisted of minor crystalline phase. With an increase of P content, the glass forming ability was enhanced. The decrease in the saturation magnetic flux density associated with increased P content, was mainly ascribed to the decrease in Fe content. Nanocrystalline Fe_87-xSi₂B₁₀P_xCu₁ alloys exhibited higher saturation magnetic flux density and lower coercivity, when x was >2 at%. The best soft magnetic performance was obtained at x = 2 at%, where the saturation magnetic flux density was 1.87 T. The coercivity was decreased with P content, indicating that the size of α-Fe grains became smaller with the increase of P content.

Keywords :

amorphous magnetic materials; boron alloys; coercive force; copper alloys; iron alloys; melt spinning; melting; nanofabrication; nanomagnetics; nanoribbons; phosphorus alloys; quenching (thermal); silicon alloys; soft magnetic materials; vitrification; α-Fe grains; Fe_81-85.5Si₂B₁₀P_1.5-6Cu; coercivity; glass forming ability; high-induction melting; melt spinning; nanocrystalline; quenching; ribbons; saturation magnetic flux density; soft magnetic properties; Amorphous magnetic materials; Annealing; Coercive force; Iron; Saturation magnetization; Soft magnetic materials; Alloying; crystalline materials; ferromagnetic materials; nanostructures; soft magnetic materials;

fLanguage :

English

Journal_Title :

Magnetics, IEEE Transactions on

Publisher :

ieee

ISSN :

0018-9464

Type :

jour

DOI :

10.1109/TMAG.2013.2287023

Filename :

6787050

Link To Document :

https://search.ricest.ac.ir/dl/search/defaultta.aspx?DTC=49&DC=75591