Magnetic Properties and Microstructures of Nanocrystalline Fe-M (M=Y,Ce)-O Films

IEEE Translation Journal on Magnetics in Japan Pub Date : 1994-07-01 DOI:10.1109/TJMJ.1994.4565898

A. Makino;A. Kojima

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引用次数: 1

Abstract

Recently, Fe-based nanocrystalline soft magnetic alloys with a high saturation magnetization B _s , produced by melt-spinning and sputtering, have been discovered. Most of these alloys are obtained by annealing an amorphous phase, and consequently there is a limit to the B _s imposed by glass-forming materials. We have been studying soft magnetic alloy films with high B _s , which have nanocrystalline structures in the as-deposited state. In this paper, we describe the magnetic and structural properties of nanocrystalline Fe-M-O (M=Y,Ce) alloy films. The Y or Ce and O elements in the films tend to make the bcc grains finer in the as-deposited state, and also repress the growth of grains during annealing through the presence of very fine (less than 10 nm in size) oxide particles containing Y or Ce. The highest B _s and μ _e values at 1 MHz, and the lowest H _c value, were 1.95 T, 1200 and 0.6 Oe respectively for a Fe ₈₅ Y ₄ O ₁₁ film annealed at 773K for one hour.

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纳米Fe-M（M=Y，Ce）-O薄膜的磁性能和微观结构

近年来，人们发现了通过熔融纺丝和溅射制备的具有高饱和磁化强度Bs的铁基纳米晶软磁合金。这些合金中的大多数是通过对非晶相进行退火而获得的，因此玻璃形成材料施加的Bs是有限的。我们一直在研究具有高Bs的软磁合金薄膜，这些薄膜在沉积状态下具有纳米晶体结构。本文描述了纳米晶Fe-M-O（M=Y，Ce）合金薄膜的磁性和结构性能。薄膜中的Y或Ce和O元素倾向于使bcc晶粒在沉积状态下更细，并且在退火过程中通过存在含有Y或铈的非常细（尺寸小于10nm）的氧化物颗粒来抑制晶粒的生长。在773K下退火1小时的Fe85Y4O11薄膜在1MHz下的最高Bs和μe值以及最低Hc值分别为1.95T、1200和0.6Oe。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE Translation Journal on Magnetics in Japan

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