不同类型环形永磁体的分析，以实现其周围的均匀磁场

2020 International Conference and Exposition on Electrical And Power Engineering (EPE) Pub Date : 2020-10-22 DOI:10.1109/EPE50722.2020.9305525

M. Gliga, C. Pacurar, C. Munteanu, S. Andreica, Claudia Constantinecu, A. Giurgiuman

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引用次数: 0

摘要

永磁体在工业中越来越多的设备中被发现，并且提高其功能性能导致这些包含它们的设备的效率。本文的目的是通过数值模拟分析不同组的环形永磁体，以确定磁化方向的最佳定位，以获得其表面均匀的磁场。通过数值模拟对不同组环形永磁体进行分析，从一个环形永磁体形成的简单结构开始，逐步达到五个环形永磁体形成的复杂结构，确定磁化方向对具体场量的影响，从而找到磁化方向的最佳取向，从而在永磁体外表面获得均匀的磁场。对两组环形磁铁进行了分析比较。在第一组中，所有磁铁都考虑相同的磁化方向，而在第二组中，磁化方向将不同。

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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Analysis of Different Type of Ring Permanent Magnets in Order to Achieve an Uniform Magnetic Field Around Them

Permanent magnets are found in more and more devices in the industry and increasing their functional performance leads to the efficiency of these devices that contain them. The aim of this paper is the analysis by numerical modelling of different sets of ring permanent magnets to determine the optimal positioning of the magnetization directions in order to obtain an uniform magnetic field on their surface. The analysis of different sets of ring permanent magnets by numerical modelling, starting from simple structures formed by a ring magnet and progressively reaching complex structures formed by five magnets to determine the influence of magnetization direction on specific field quantities in order to find the optimal orientation of the magnetization direction to obtain an uniform magnetic field on the outer surface of the magnets. Two sets of ring magnets are analysed and compared. In the first set the same magnetization direction is considered in all magnets, and in the second set the magnetization direction will be different.

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2020 International Conference and Exposition on Electrical And Power Engineering (EPE)

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