磁悬浮进给机构的磁力耦合
宋文荣, 陈阳, 宋晓东, 何惠阳, 郭凡林. 磁悬浮进给机构的磁力耦合[J]. 光学 精密工程, 2004, 12(4): 411.
宋文荣, 陈阳, 宋晓东, 何惠阳, 郭凡林. 磁悬浮进给机构的磁力耦合[J]. Optics and Precision Engineering, 2004, 12(4): 411.
[2] 宋文荣,于国飞,王延风,等.磁悬浮微进给机构的研究[J].中国机械工程,2003,14(13):1090-1093.SONG W R, YU G F, WANG Y F, et al. Research on micro feed mechanism based on magnetic levitation technology[J]. Journal of Chinese Mechanical Engineering, 2003, 14(13):1090-1093. (in Chinese)
[3] XIA Z, CHEN Q Y, MA K B, et al. Design of superconduct-ing magnetic bearings with high levitation force for flywheel energy storage systems[J]. IEEE Transactions on Applied Superconductivity,1995,5(2):622-625.
[4] BOEHM J, GERBER R, HARTLEY J R, et al. Development of active magnetic bearings for high speed rotors[J]. IEEE Transactions on Magnetics,1990,26(5):2544-2546.
[5] 施韦策G, 布鲁勒H, 特拉克斯勒A. 主动磁轴承基础、性能及应用[M].北京:新时代出版社,1997.SCHWEITZER G, BLEULER H, TRAXLER A. The foundation、performance and applications of active magnetic bearing[M].Beijing: Xinshidai Press,1997.(in Chinese)
[6] 赵凯华,陈熙谋.电磁学[M]. 北京:人民教育出版社,1978.ZHAO K H, CHEN X M. Electromagnetics[M].Beijing: People's Education Press,1978.(in Chinese)
宋文荣, 陈阳, 宋晓东, 何惠阳, 郭凡林. 磁悬浮进给机构的磁力耦合[J]. 光学 精密工程, 2004, 12(4): 411. 宋文荣, 陈阳, 宋晓东, 何惠阳, 郭凡林. [J]. Optics and Precision Engineering, 2004, 12(4): 411.