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in dynamics and vibration control of large-scale flexible space- [33] 吴爽,赵寿根,吴大方,等. 太阳翼铰链结构的动力学实
craft[J]. Chinese Journal of Theoretical and Applied Mechan- 验与非线性动力学建模 [J]. 宇航学报,2013,34(12):
ics,2019,51(1):1-13. 1550-1556.
[25] LIU L, CAO D Q, WEI J, et al. Rigid-flexible coupling WU Shuang,ZHAO Shougen,WU Dafang,et al. Dynamic
dynamic modeling and vibration control for a three-axis stabi- experiments and nonlinear dynamics modeling of joints in
lized spacecraft[J]. Journal of Vibration and Acoustics, solar array[J]. Journal of Astronautics, 2013, 34( 12) :
2017,139(4):041006. 1550-1556.
[26] LIU L,CAO D Q,TAN X J. Studies on global analytical [34] CRAWLEY E F,AUBERT A C. Identification of nonlinear
mode for a three-axis attitude stabilized spacecraft by using the structural elements by force-state mapping[J]. AIAA Journal,
Rayleigh-Ritz method[J]. Archive of Applied Mechanics, 1986,24(1):155-162.
2016,86(12):1927-1946. [35] CRAWLEY E F, O’DONNELL K J. Force-state mapping
[27] WEI J,CAO D Q,LIU L,et al. Global mode method for identification of nonlinear joints[J]. AIAA Journal, 1987,
dynamic modeling of a flexible-link flexible-joint manipulator 25(7):1003-1010.
with tip mass[J]. Applied Mathematical Modelling, 2017, [36] 王巍,于登云,马兴瑞. 航天器铰接结构非线性动力学特
48:787-805. 性研究进展 [J]. 力学进展,2006,36(2):233-238.
[28] WEI J,CAO D Q,HUANG H,et al. Dynamics of a multi- WANG Wei, YU Dengyun, MA Xingrui. Advances and
beam structure connected with nonlinear joints: modelling trends of non-linear dynamics of space joint-dominated struc-
and simulation[J]. Archive of Applied Mechanics, 2018, ture[J]. Advances in Mechanics,2006,36(2):233-238.
88(7):1059-1074. [37] 吴志刚. 航天器连接结构物理参数辨识及其动力学问题研
[29] WEI J,CAO D Q,WANG L C,et al. Dynamic modeling 究 [D]. 哈尔滨:哈尔滨工业大学,1998.
and simulation for flexible spacecraft with flexible jointed [38] 吴德隆. 空间站大型伸展机构动力学研究(一、二、三).
solar panels[J]. International Journal of Mechanical Sciences, 863 高科技项目研究报告 [R]. 中国运载火箭技术研究院,
2017,130:558-570. 1999.
[30] BHAT R B. Natural frequencies of rectangular plates using WU Delong. Dynamics research on large extension mecha-
characteristic orthogonal polynomials in Rayleigh-ritz nisms of space stations ( Ⅰ , Ⅱ , Ⅲ ) 863 high tech project
method[J]. Journal of Sound and Vibration,1985,102(4): research report [R]. China Academy of Launch Vehicle Tech-
493-499. nology,1999.
[31] CAO D Q,WANG L C,WEI J,et al. Natural frequencies [39] HARDAWAY L M R, PETERSON L D. Nanometer-scale
and global mode functions for flexible jointed-panel spontaneous vibrations in a deployable truss under mechanical
structures[J]. Journal of Aerospace Engineering, 2020, loading[J]. AIAA Journal,2002,40(10):2070-2076.
33(4):04020018. [40] ONODA J, SANO T, MINESUGI K. Passive damping of
[32] 吴志刚,王本利,马兴瑞. 在轨航天器连接结构动力学及 truss vibration using preloaded joint backlash[J]. AIAA Jour-
其参数辨识 [J]. 宇航学报,1998,19(3):103-109. nal,1995,33(7):1335-1341.
WU Zhigang, WANG Benli, MA Xingrui. Dynamics and
parameters identification of joints in spacecraft[J]. Journal of 通信作者:朱光楠(1992—),男,博士,助理研究员。
Astronautics,1998,19(3):103-109. E-mail:dblphenan@hotmail.com
附 录 :
M 11 0 0 0 0 M 16
0 0 0 0
M 22 M 26
0 0 M 33 M 34 M 35 0
M 11 =
0 0
M 43 M 44 M 45 0
0 0
M 53 M 54 M 55 0
M 61 M 62 0 0 0 M 66
··· ··· ··· ···
0 1×m t n t 0 1×m t n t 0 1×m t n t 0 1×m t n t 0 1×m t n t 0 1×m t n t
··· ··· ··· ···
0 1×m t n t 0 1×m t n t 0 1×m t n t 0 1×m t n t 0 1×m t n t 0 1×m t n t
··· ··· ··· ···
M 37 M 3,7+i M 3,6+N M 3,7+N M 3,7+N+i M 3,6+2N
M 12 =
M 47 ··· M 4,7+i ··· M 4,6+N M 4,7+N ··· M 4,7+N+i ··· M 4,6+2N
M 57 ··· ··· ··· ···
M 5,7+i M 5,6+N M 5,7+N M 5,7+N+i M 5,6+2N
··· ··· ··· ···
0 1×m t n t 0 1×m t n t 0 1×m t n t 0 1×m t n t 0 1×m t n t 0 1×m t n t
