Fe-Si-B-Cu-Nb非晶态合金的磁导率和析出的α-Fe相

IEEE Translation Journal on Magnetics in Japan Pub Date : 1994-11-01 DOI:10.1109/TJMJ.1994.4565955

Y. Ueda;S. Ikeda;T. Sakaguchi

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引用次数: 6

摘要

非晶态Fe-Si-B-Cu-Nb合金的软磁性能通过在结晶温度以上退火得到显著改善。退火的Fe74SixB22-xCu1Nb3合金的磁导率在Si浓度x＝14时显示出最大值。在磁导率最高的退火温度下观察到μ-Fe晶粒的析出。α-Fe相的晶格常数在产生最高磁导率的退火温度下表现出最小值，并且强烈依赖于Si浓度。当Si浓度高于x=12时，根据晶格常数估计的μ-Fe相中的Si含量约为20at%。沉淀的μ-Fe相的体积分数取决于非晶合金中B的浓度。μ-Fe在最佳退火温度下的晶粒尺寸约为130Å。为了解释高磁导率的机理，有必要考虑除晶粒尺寸和沉淀的μ-Fe的体积分数之外的其他因素。

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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Permeability and α-Fe Phase Precipitated in Fe-Si-B-Cu-Nb Amorphous Alloys

The soft magnetic properties of amorphous Fe-Si-B-Cu-Nb alloys are markedly improved by annealing the alloys above the crystallization temperature. The magnetic permeability of the annealed Fe 74 Si x B 22-x Cu 1 Nb 3 alloys shows a maximum value at an Si concentration of x=14. The precipitation of μ-Fe grains is observed for the annealing temperature giving the highest magnetic permeability. The lattice constant of the α-Fe phase shows a minimum at the annealing temperature yielding the highest magnetic permeability, and depends strongly on the Si concentration. The Si content in the μ-Fe phase estimated from the lattice constant is about 20 at% for Si concentrations above x=12. The volume fraction of the precipitated μ-Fe phase depends on the B concentration in the amorphous alloy. The grain size of μ-Fe at the optimum annealing temperature is about 130Å. To explain the mechanism of the high permeability, it is necessary to consider factors other than the grain size the volume fraction of the precipitated μ-Fe.

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