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含间隙铰空间可展桁架结构的动力学实验 被引量:16

Dynamic experiment of a space deployable truss structure with joint clearances
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摘要 为研究微重力环境下含铰接间隙航天可展结构的动力学特性,让可展桁架结构分别在水平悬吊和垂直安装情况下展开到位后突然锁定,测试并比较标志点的衰减振动加速度响应。在水平安装时,用橡胶绳把每一部件悬吊起来,以尽量消除部件重量对铰关节的作用力。实验结果显示,与垂直安装状态相比,水平悬吊安装状态下含间隙桁架结构衰减振动的加速度幅值响应减小,振动时间较短,有更宽的频谱响应和严重的响应滞后现象,对铰间隙的初始运动状态呈现出高度敏感性。 This paper studied the dynamics of space deployable structures with joint clearances in micro gravity. A deployable truss structure was mounted first in a horizontal plane and then in a vertical plane to compare the acceleration responses of damped vibrations of a selected marker after the truss was locked abruptly in its deployed configuration. In the horizontal plane each truss component was hung by two soft rubber cords to reduce the weighting on the joints. The experimental results demonstrated that the intermittent collisions and friction inside the joints with small gaps reduced the truss vibration amplitudes, shortened the vibration periods, and increased the power frequency bandwidth and the hysteresis so that the system had much more sensitivity to the initial system state when mounted in the horizontal plane than when in the vertical plane.
作者 陈鹿民 阎绍泽 金德闻 吴德隆
机构地区 清华大学精密仪器与机械学系 北京宇航系统工程设计部
出处 《清华大学学报(自然科学版)》 EI CAS CSCD 北大核心 2003年第8期1027-1030,共4页 Journal of Tsinghua University(Science and Technology)
基金 国家自然科学基金资助项目(50275080)
关键词 航天可展结构 动力学 空间可展桁架结构 间隙铰 衰减振动 微重力 spacecraft deployable structure joint clearances vibration nonlinear dynamics
分类号 V414 [航空宇航科学与技术—航空宇航推进理论与工程]
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参考文献11

  • 1阎绍泽,陈鹿民,吴德隆,金德闻.空间可展结构非线性动力学特性实验研究[J].宇航学报,2002,23(4):1-3. 被引量:10
  • 2Folkman S L, Rowsell E A, Ferney G D. Influence of pinned joints on damping and dynamic behavior of a truss [J]. J Guidance, Control, and Dynamics, 1995, 18(6): 1398-1403.
  • 3ONODA Junjiro, SANO Tetsuni, MINESUGI Kenji.Passive damping of truss vibration using preloaded joint baeklash [J]. AIAA J, 1995, 33(7) : 1335 - 1341.
  • 4Rong Y, Tzou H S. Dynamic characteristics evaluation of elastically jointed structures through stochastic simulation[J]. Computers & Structures, 1992, 42(3) : 311 - 320.
  • 5Bullock S J. Identification of Nonlinear Micron-Level Mechanics of Joints for Deployable Precision Space Structures[D]. Boulder. USA. University of Colorado, 1996.
  • 6Hachkowski M R, Peterson L D, Lake M S. Friction model of a revolute joint for a precision deployable spacecraft structure [J]. J Spacecraft and Rockets, 1999, 36(4) : 591 -598.
  • 7Bullock S J, Peterson L D. Nanometer regularity in the mechanics of a precision deployable spacecraft structure joint[J]. J Spacecraft and Rockets, 1999, 36(5) : 758- 764.
  • 8Wada B K, Kedikian R. Experimental studies, Benefits of load control on deployment and structural linearity [A].AIAA-95-1140-CP [C]. 3529 - 3535.
  • 9Moon F C, Li G X. Experimental study of chaotic vibrations in a pin-jointed space truss structure [J]. AIAA J, 1990,28(5): 915- 921.
  • 10Meguro A, Mitsugi J. Ground verification of deployment dynamics of large deployable space structures [J]. J of Spacecraft, 1992, 29(6) : 835 - 841.

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共引文献9

同被引文献180

引证文献16

二级引证文献124

清华大学学报(自然科学版)
2003年 第8期

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