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1. Low eddy loss axial hybrid magnetic bearing with gimballing control ability for momentum flywheel
[J] .
Jiqiang Tang,
Jinji Sun,
Jiancheng Fang,
Journal of magnetism and magnetic materials
.
2013,第MARa1期
机译:具有动量飞轮的万向节控制能力的低涡流轴向混合电磁轴承 2. Deformation and life analysis of composite flywheel disk systems [J] . S.M. Arnold, A.F. Saleeb, N.R. Al-Zoubi Composites. B, Engineering . 2002,第6期机译:复合飞轮盘系统的变形与寿命分析 3. 転がり軸受の性能解析:転がり軸受の寿命解析 [J] . 植田徹, 三田村宣晶, Tohru UEDA, 設計工学 . 2005,第10期机译:滚动轴承性能分析:滚动轴承寿命分析 4. Adaptive control of a novel hybrid magnetic bearing flywheel system for use in momentum exchange devices [C] . Basaran, Sinan, Sivrioglu, International Conference on Recent Advances in Space Technologies . 2013机译:用于动量交换装置的新型混合磁力轴承飞轮系统的自适应控制 5. Bearingless AC Homopolar Machine Design and Control for Distributed Flywheel Energy Storage. [D] . Severson, Eric Loren. 2015机译:分布式飞轮储能的无轴承交流同极电机设计与控制。 6. Greater Power but Not Strength Gains Using Flywheel Versus Equivolumed Traditional Strength Training in Junior Basketball Players [O] . Marko D. M. Stojanović, Mladen Mikić, Patrik Drid, 2021机译:更大的力量但不使用飞轮与初级篮球运动员的飞轮与平等传统力量训练的力量提升 7. Development of High Speed Flywheel Rotation in a Vacuum Chamber : Magnetic Bearing in Ultra Low Loss and Measures for Spillover Prevention(Mechanical Systems) [O] . Osamu SAITO, Kazuaki KURIHARA, Shinobu SAITO 2009机译:高速飞轮旋转在真空室中的高速飞轮旋转:磁轴承超低损耗和溢出防护措施(机械系统) 8. Deformation and Life Analysis of Composite Flywheel Disk and Multi-Disk Systems [R] . Arnold, S. M., Saleeb, A. F., AlZoubi, N. R. 2001机译:复合飞轮盘与多盘系统的变形与寿命分析 |
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