Texture Control During the Manufacturing of Nonoriented Electrical Steels

Texture, Stress, and Microstructure Pub Date : 2008-04-16 DOI:10.1155/2008/173083

L. Kestens, S. Jacobs

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引用次数: 126

Abstract

Methods of modern quantitative texture analysis are applied in order to characterize the crystallographic texture of various non-oriented electrical steel grades in view of their relation with the magnetic properties of the steel sheet. A texture parameter is defined which quantifies the density of easy magnetic directions in the sheet planes. An extensive correlation study revealed the relation of this parameter with the hysteresis losses, determined at an induction of 1.5T, and with the induction measured at an applied external field of 25A/cm. It is shown that the latter magnetic property is the more texture dependent, whereas the former one is more sensitive to the grain size of the steel. Also various strategies for texture control are critically reviewed. It is shown that the conventional manufacturing process only provides poor tools for optimizing the texture of the final product. In order to obtain a quantum-leap improvement of the magnetic quality of the texture, in combination with other important microstructural features, nonstandard processing strategies are required, such as cross-rolling, two-stage cold rolling, or surface annealing.

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无取向电工钢制造过程中的织构控制

本文应用现代定量织构分析方法，根据各种无取向电工钢牌号的晶体织构与钢板磁性能的关系，对其进行了表征。定义了一个纹理参数，用来量化薄片平面上易磁方向的密度。广泛的相关研究揭示了该参数与1.5T感应下的磁滞损耗和25A/cm外加磁场下测量的磁滞损耗之间的关系。结果表明，后一种磁性能更依赖于织构，而前一种磁性能对钢的晶粒尺寸更敏感。此外，各种策略的纹理控制进行了严格的审查。结果表明，传统的制造工艺只能为优化最终产品的织构提供较差的工具。为了获得织构磁性质的飞跃式改善，结合其他重要的显微组织特征，需要采用非标准加工策略，如交叉轧制、两段冷轧或表面退火。

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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Texture, Stress, and Microstructure

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