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Design of hybrid thrust Magnetic bearing for heavy rotating shaft considering self-weight compensation according to axial load

机译：考虑轴向载荷自重补偿的重型旋转轴混合推力电磁轴承设计

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Motivation for research Magnetic bearings have been widely used in high-speed rotation system, machinery, aerospace, and high precision system because of the numerous advantages of non-contact rotating machines, such as a no wearing, low loss, long life span compared with conventional bearings, and absence of lubrication [1][2].

机译：研究动机由于非接触式旋转机械具有无磨损，低损耗，使用寿命长等非接触式旋转机械的诸多优点，因此电磁轴承已广泛用于高速旋转系统，机械，航空航天和高精度系统中。传统轴承，并且没有润滑[1] [2]。

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来源
《2017 IEEE International Magnetics Conference》|2017年|1-1|共1页
会议地点 Dublin(IE)
作者
J. Ahn; C. Han; C. Kim; C. Park; J. Choi;
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作者单位

RD, MAGNETAR, Daejeon, The Republic of Korea;

RD, MAGNETAR, Daejeon, The Republic of Korea;

Electrical Engineering, Chungnam National University, Daejeon, The Republic of Korea;

Advanced Manufacturing Systems Research Division, Korea Institute of Machinery and Materials, Daejeon, The Republic of Korea;

Electrical Engineering, Chungnam National University, Daejeon, The Republic of Korea;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Magnetic levitation; Force; Shafts; Load modeling; Air gaps; Finite element analysis; Design methodology;

机译：磁悬浮力;轴;载荷建模;气隙;有限元分析;设计方法;

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专利

1. Influence of Axial Thrust Bearing on the Dynamic Behavior of an Elastic Shaft: Coupling Between The Axial dynamic Behavior and The Bending Vibrations of a Flexible Shaft [J] . Sebastien Berger, Olivier Bonneau, Jean Frene Journal of Vibration and Acoustics . 2001,第2期

机译：轴向推力轴承对弹性轴动力特性的影响：轴动力特性与挠性轴弯曲振动的耦合
2. A multi-objective optimal design methodology for solid core no-thrust-disk/thrust hybrid magnetic bearings considering eddy-current effects and leakage [J] . Zhang Pengfei, Wang Zhiheng, Xi Guang International journal of applied electromagnetics and mechanics . 2019,第1期

机译：考虑涡流效应和泄漏的固体芯无推力盘/推力混合磁轴承多目标最佳设计方法
3. Applying vertical tilting pad thrust bearings: They can carry thrust loads parallel to the shaft axis [J] . Richard L. Nailen Electrical Apparatus . 2005,第11期

机译：使用垂直倾斜垫推力轴承：它们可以承受平行于轴轴线的推力负荷
4. Design of hybrid thrust Magnetic bearing for heavy rotating shaft considering self-weight compensation according to axial load [C] . J. Ahn, C. Han, C. Kim, IEEE Magnetics Conference . 2017

机译：考虑根据轴向载荷的自重补偿，对重型旋转轴混合推力磁轴承的设计
5. Modeling and control of magnetically-levitated rotating shafts with active magnetic bearings and self-bearing motors. [D] . Grochmal, Thomas R. 2008

机译：带有主动磁轴承和自轴承电机的磁悬浮旋转轴的建模和控制。
6. Hopf Bifurcation and Vibration Control for a Thrust Magnetic Bearing with Variable Load Mass [O] . Lingling Zhang 2018

机译：变载荷质量推力电磁轴承的霍普夫分岔与振动控制
7. CONTACT WHIRLING VIBRATION OF A ROTATING SHAFT SUPPORTED BY A REPULSIVE MAGNETIC BEARING AND THE INFLUENCE OF THE AXIAL DISPLACEMENT ON ITS SUPPRESSION [O] . Tomohiro Sugai, Tsuyoshi Inoue, Yukio Ishida 2015

机译：接触一个由磁性轴承支撑的旋转轴的旋转振动以及轴向位移对其抑制的影响
8. The Vibratory Behavior of a Rotating Propeller Shaft. Part 4: Vibration Tests of a Rotating Propeller Shaft in a Rubber Stern Tube Bearing [R] . Francken, A. J., Vanvelzen, G. C. 1980

机译：旋转螺旋桨轴的振动特性。第4部分：橡胶尾管轴承中旋转螺旋桨轴的振动试验

Design of hybrid thrust Magnetic bearing for heavy rotating shaft considering self-weight compensation according to axial load

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