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Modeling and experimental analysis of magnetostriction in high strength steels

机译：高强度钢材磁致伸缩的建模与实验分析

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Previous studies on the magnetostriction in high strength steels have ignored the internal anisotropies due to previous material handling. Cold-rolling an iron alloy will stretch and distort the magnetic domains in the direction of rolling. These altered domain shapes impact the magnetic characteristics of the alloy; adding an additional preferred direction of magnetization to the easy or hard axes within the crystalline structure. This paper presents data taken on rods of a high strength steel that have been machined parallel to the rolling direction; as well as simulated results using a Preisach-type magnetostriction model. The model, whose formulation is based on the DOK magnetization-based model, aims specifically to simulate the Villari reversal phenomenon observed in the magnetostriction measurements of high strength steels and some Terfenol-D alloys.

机译：以前关于高强度钢的磁致伸缩的研究由于先前的材料处理，忽略了内部各向异性。冷轧铁合金将在轧制方向上伸展并扭曲磁畴。这些改变的畴形状会影响合金的磁特性;将另外的优选的磁化方向添加到晶体结构内的易于或硬轴上。本文介绍了在高强度钢的杆上拍摄的数据，该钢材已经与轧制方向平行加工;以及使用Preisach型磁致索模型的模拟结果。该模型，其配方基于基于行为磁化的模型，目的是模拟在高强度钢的磁致传测测量中观察到的Villari逆转现象和一些三烯酚-D合金。

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《Joint European Magnetic Symposia》|2014年||共4页
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作者
H. ElBidweihy; C. D. Burgy; E. Della Torre; M. Wun-Fogle;
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原文格式 PDF
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中图分类 O441.2-532;
关键词
Modeling; experimental; analysis;

机译：建模;实验;分析;

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机译：高强度钢材磁致伸缩的建模与实验分析
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Modeling and experimental analysis of magnetostriction in high strength steels

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