Internal Demagnetizing Factor in Ferrous Metals

Journal of Metallurgy Pub Date : 2012-11-05 DOI:10.1155/2012/752871
J. Takács, G. Kovacs, L. Varga
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引用次数: 3

Abstract

Modelling the saturation major loop of a ferrous metal produces the intrinsic magnetization parameters; fitting the measured commutation curve, however, can yield different results. The relation of the intrinsic loci of the vertices of the minor loops () to the experimental curve () is investigated. The two-way transformation between the two curves is formulated in closed mathematical form with the help of the internal demagnetization factor, . The method is applied to four ferrous metals, with widely different intrinsic properties (soft nonoriented Fe-Si steel, normalized low carbon steel, and Finemet in nanocrystalline and amorphous state) supporting the predictions of the proposal. The developed relationship is model independent and it is shown that the factor depends linearly on coercivity based on experimental evidence.
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黑色金属中的内部退磁因子
对含铁金属的饱和主回路进行建模,得到其本征磁化参数;然而,拟合实测换相曲线会产生不同的结果。研究了小回路顶点的内在轨迹()与实验曲线()的关系。借助内部退磁因子,用封闭的数学形式表示了两条曲线之间的双向变换。该方法应用于四种具有广泛不同本征性能的黑色金属(软无取向铁硅钢,正火低碳钢和纳米态和非晶态的Finemet),支持该建议的预测。实验结果表明,所建立的关系与模型无关,矫顽力与矫顽力呈线性关系。
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Journal of Metallurgy
Journal of Metallurgy
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