Magnetic Properties of Extruded Nanocrystalline Fe-Nb-B Alloys

IEEE Translation Journal on Magnetics in Japan Pub Date : 1994-11-01 DOI:10.1109/TJMJ.1994.4565956

A. Kojima;H. Horikiri;Y. Kawamura;A. Makino;A. Inoue;T. Masumoto

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引用次数: 2

Abstract

A bulk Fe 84 Nb 7 B 9 alloy was produced by extruding amorphous powder at temperatures (T e ) between 653 and 723K, at pressures (P e ) between 824 and 1208 MPa, and at a speed (V e ) of 5 mm/s. The subsequent annealing of the extruded bulk alloy for 3.6 ks at temperatures between 873 and 973K resulted in the formation of a (for the most part) single bec phase, with grain sizes near 10 nm. The bulk alloy, extruded at a P e above 1000 MPa, has a high relative density of 99%. The soft magnetic properties are better for bulk materials extruded at lower pressures, and the bulk alloy extruded at T e =698K and P e =870 MPa exhibits a magnetization (B 800 ) of 1.40 T, a permeability of 1123, and a coercive force (H c ) of 47 A/m, values which are inferior to those of the bec ribbon alloy (1.49 T, 22000, 8 A/m). The difference between the soft magnetic properties of the bulk material and the ribbon forms is presumably due to the inhomogeneity of the microstructure, oxidation of the powder, and the remainder of a higher internal stress in the bulk alloy.

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挤压纳米晶Fe-Nb-B合金的磁性能

通过在653和723K之间的温度（Te）、824和1208MPa之间的压力（Pe）以及5mm/s的速度（Ve）下挤出非晶粉末来制备大块Fe84Nb7B9合金。随后在873和973K之间的温度下对挤压的大块合金退火3.6ks，导致（大部分）形成晶粒尺寸接近10nm的单个bec相。在高于1000MPa的Pe下挤出的大块合金具有99%的高相对密度。在较低压力下挤压的大块材料的软磁性能更好，并且在Te=698K和Pe=870MPa下挤压的块合金表现出1.40 T的磁化强度（B800）、1123的磁导率和47A/m的矫顽力（Hc），这些值低于bec带状合金的值（1.49T、22000、8A/m）。大块材料和带状材料的软磁性能之间的差异可能是由于微观结构的不均匀性、粉末的氧化以及大块合金中较高内应力的剩余部分。

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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