A Viscous-Type Dynamic Hysteresis Model as a Tool for Loss Separation in Conducting Ferromagnetic Laminations

Sergey E. Zirka; Yury I. Moroz; Philip Marketos; Anthony J. Moses

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A Viscous-Type Dynamic Hysteresis Model as a Tool for Loss Separation in Conducting Ferromagnetic Laminations

机译：粘滞型动态磁滞模型作为传导铁磁叠片中损耗分离的工具

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A viscous-type dynamic hysteresis model (DHM) that is compatible with any static hysteresis model is described. In contrast to existing dynamic models, the DHM is characterized by fixed desired properties over an infinite frequency range and provides the possibility of changing the shape of the steady-state hysteresis loop. The way the DHM is combined with Maxwell equations makes it possible for the first time to separate all three components of the total loss in conducting ferromagnetic laminations. These are the static hysteresis loss, classical eddy-current loss, and the excess loss treated as a dynamic hysteresis component. The study of their frequency dependencies opens a possibility of accurate iron loss prediction based on the loss separation principle.

机译：描述了与任何静态滞后模型兼容的粘性型动态滞后模型（DHM）。与现有的动态模型相比，DHM在无限的频率范围内具有固定的所需特性，并提供了更改稳态磁滞回线形状的可能性。 DHM与Maxwell方程组合的方式使首次有可能在传导铁磁叠片中分离总损耗的所有三个分量。这些是静态磁滞损耗，经典涡流损耗和被视为动态磁滞分量的多余损耗。对它们的频率依赖性的研究为基于损耗分离原理的准确铁损预测提供了可能性。

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来源
《IEEE Transactions on Magnetics》 |2005年第3期|p.1109-1111|共3页
作者
Sergey E. Zirka; Yury I. Moroz; Philip Marketos; Anthony J. Moses;
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正文语种 eng
中图分类磁性材料、铁氧体;
关键词
Dynamic hysteresis model; Frequency dependence; Iron loss separation;

机译：动态磁滞模型;频率依赖性;铁损分离;

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1. Loss Separation for Dynamic Hysteresis in Ferromagnetic Thin Films [J] . Francesca Colaiori, Gianfranco Durin, Stefano Zapperi Physical review letters . 2006,第25期

机译：铁磁薄膜中动态磁滞的损耗分离
2. A dynamical energy-based hysteresis model for iron loss calculation in laminated cores [J] . S. Steentjes, F. Henrotte, C. Geuzaine, International journal of numerical modelling . 2014,第3期

机译：基于动态能量的磁滞模型，用于计算叠层铁芯的铁损
3. Magnetodynamic vector hysteresis model of ferromagnetic steel laminations [J] . Dlala E, Belahcen A, Arkkio A Physica, B. Condensed Matter . 2008,第2a3期

机译：铁磁钢叠片的磁动力矢量磁滞模型
4. Modeling of Hysteresis Losses in Ferromagnetic Laminations under Mechanical Stress [C] . P. Rasilo, D. Singh, U. Aydin, International Conference on the Computation of Electromagnetic Fields . 2016

机译：机械应力下铁磁叠层滞后损失的建模
5. Modeling of piezoceramics and piezoelectric laminates addressing complete coupling and hysteresis behavior. [D] . Zhou, Xu. 2002

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6. Dynamic Ferromagnetic Hysteresis Modelling Using a Preisach-Recurrent Neural Network Model [O] . Christian Grech, Marco Buzio, Mariano Pentella, 2020

机译：使用Preisach-递归神经网络模型的动态铁磁滞回建模
7. A dynamical model with hysteresis for the homogenization of ferromagnetic laminated cores [O] . Henrotte François, Niyonzima Innocent, Steentjes S., 2012

机译：铁磁叠片铁心均质化的动力学模型
8. AERODYNAMIC RESULTS OS A SEPARATION TEST (CA20) CONDUCTED AT BOEING TRANSONIC WIND TUNNEL USING 0.03-SCALE MODELS OF THE CONFIGURATION 140A/B (MODIFIED) SSV ORRIER SSV ORBITER (MODEL No. 45-0) AND THE BOEING 747 CARRIER (MODEL NO. AX 1319 X-1) [R] . T. Dziubala, R. L. Gillins, N. Petrozzi 1975

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A Viscous-Type Dynamic Hysteresis Model as a Tool for Loss Separation in Conducting Ferromagnetic Laminations

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