[1] [1] GE X S, CHEN L Q. Attitude control of a rigid spacecraft with two momentum wheel actuators using genetic algorithm ［J］. Acta Astronautica, 2004,55: 3-8.

[2] [2] SATHYAN K, HSU H Y, LEE S H, et al.. Long-term lubrication of momentum wheels used in spacecrafts-An overview ［J］. Tribology International, 2010,43: 259-267.

[3] [3] FANG J CH, YANG L, SUN J J, et al.. Novel permanent-magnet bias radial magnetic bearing used in magnetical suspended flywheel ［J］. Opt. Precision Eng., 2008, 16(3): 444-451. (in Chinese)

[4] [4] LIU Q, FANG J CH, HAN B CH. Analysis and test of dynamic reaction of magnetic bearing reaction flywheel ［J］. Journal of Beijing University of Aeronautics and Astronautics, 2010,36(7): 821-825. (in Chinese)

[5] [5] PRIVAT M, COSTA A D. Penumatic locking device for magnetic bearing reaction wheel ［C］. Proceedings of the 10th European space mechanisms and tribology symposium, San Sebastian, Spain, 2003: 1-8.

[6] [6] LIU Q, FANG J CH, HAN B CH. Novel electromagnetic repeated launch locking/unlocking device (RLLUD) based on self-locking for magnetic bearing flywheel ［J］. Sensors and Actuators A, 2012,175: 116-126.

[7] [7] LIVET J L, BRETAUDEAU M. Temporary locking device for inertia wheel: USA, 4345485 ［P］. 1982-08-24.

[8] [8] BEAU J F, GAUTHIER M. Kinetic wheel arrangement incorporating magnetic suspension provided with means for caging its rotor: USA, 4566740 ［P］. 1986-01-28.

[9] [9] GAUTHIER M, ROLAND P J, VAILLANT H, et al.. An advance low-cost 2-axis active magnetic bearing flywheel［C］. Proceeding of the Third European Space Mechanisms & Tribology Symposium, Madrid, Spain, 1987: 177-182.

[10] [10] GUELIS H V D,JOLY J L. Device for temporarily locking a rotor onto a stator: USA, 4872357 ［P］. 1989-10-10.

[11] [11] ALESHIN V, VAN DEN ABEELE K. Hertz-Mindlin problem for arbitrary oblique 2D loading: General solution by memory diagrams ［J］. Journal of the Mechanics and Physics of Solids, 2012,60: 14-36.

[12] [12] MO L J, ZHU M H, ZHENG J F, et al.. Study on rotational fretting wear of 7075 aluminum alloy ［J］. Tribology International, 2010,43: 912-917.

[13] [13] BUCIUMEANU M, CRUDU I, PALAGHIAN L, et al.. Influence of wear damage on the fretting fatigue life prediction of an Al7175 alloy ［J］. International Journal of Fatigue, 2009,31: 1278-1285.

[14] [14] HAN B CH, LIU Q. Electromagnetic locking device based on self-locking for magnetic suspended flywheel ［J］. Opt. Precision Eng., 2006,14(4): 2456-2464. (in Chinese)

[15] [15] ZHANG X Y, YAN X J, YANG Q L. Design and experimental research of a shape memory alloy space release device with segmented nut form ［J］.Chinese Journal of Mechanical Engineering, 2010,46(17): 145-150. (in Chinese)

[16] [16] YAN X J, ZHANG X Y, NIE J X, et al.. Prototype SMA actuated locking device for small space magnetic bearing flywheels ［J］. Journal of Beijing University of Aeronautics and Astronautics, 2011,37(2): 127-131. (in Chinese)

[17] [17] SCHARFE M, ROSCHKE T, BINDL E, et al.. Design and development of a compact magnetic bearing momentum wheel for micro and small satellites ［C］. Proceedings Fifteenth Annual/USU Conference on Small Satellites, No. SSC01-IX-1, AIAA, Utah, 2001: 1-9.

[18] [18] LIU Q, FANG J CH, HAN B CH, et al.. Locking device for magnetic bearing flywheel and its optimization ［J］. Opt. Precision Eng., 2010,18(8): 1814-1821. (in Chinese)

[19] [19] LE Y, FANG J CH, TANG J Q, et al.. Research on analysis and compensation method of remnant magnetic moment for magnetically suspended reaction flywheel ［J］. Acta Aeronautica et Astronautica Sinica, 2011,32(5): 881-890. (in Chinese)

[20] [20] YE Q H, LI H, HAN B CH. Optimization design of magntic bearing reaction wheel rotor using iSIGHT software ［J］. Journal of Astronautic, 2007,28(6): 1619-1623. (in Chinese)

[21] [21] HAN B CH, HU G, FANG J CH. Optimization design of magnetic suspended gyroscope rotor ［J］. Opt. Precision Eng., 2006,14(4): 662-666. (in Chinese)