Design and multibody dynamics analyses of the novel force-bearing structures for variable configuration spacecraft

Xin Ning; Lin Tang; Junwei Gu; Chaobo Liang; Xiaokui Yue; Jianping Yuan

doi:10.1515/secm-2015-0383

Design and multibody dynamics analyses of the novel force-bearing structures for variable configuration spacecraft

Xin Ning, Lin Tang, Junwei Gu, Chaobo Liang, Xiaokui Yue, Jianping Yuan

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Novel variable configuration spacecraft (VCS) can change its configuration by on-orbit assembly or the motion of the mechanism according to the requirements and missions, and the multibody dynamics analysis is performed to obtain the corresponding theoretical lowest values of the mechanical properties of force-bearing structures for the VCS module. In the meantime, to meet the actual use requirements for VCS, novel force-bearing structures are designed optimally and fabricated successfully. The corresponding experimental values of the mechanical properties for the force-bearing structures are also tested and investigated, which are compared to the corresponding theoretical values via multibody dynamics analysis. This paper is part of a large project on the development and preparation of the novel force-bearing structures applied in the next generation of VCS.

Original language	English
Pages (from-to)	471-476
Number of pages	6
Journal	Science and Engineering of Composite Materials
Volume	24
Issue number	3
DOIs	https://doi.org/10.1515/secm-2015-0383
State	Published - 1 May 2017

Keywords

force-bearing structures
mechanical properties
multibody dynamics analysis
variable configuration spacecraft (VCS)

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10.1515/secm-2015-0383

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title = "Design and multibody dynamics analyses of the novel force-bearing structures for variable configuration spacecraft",

abstract = "Novel variable configuration spacecraft (VCS) can change its configuration by on-orbit assembly or the motion of the mechanism according to the requirements and missions, and the multibody dynamics analysis is performed to obtain the corresponding theoretical lowest values of the mechanical properties of force-bearing structures for the VCS module. In the meantime, to meet the actual use requirements for VCS, novel force-bearing structures are designed optimally and fabricated successfully. The corresponding experimental values of the mechanical properties for the force-bearing structures are also tested and investigated, which are compared to the corresponding theoretical values via multibody dynamics analysis. This paper is part of a large project on the development and preparation of the novel force-bearing structures applied in the next generation of VCS.",

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T1 - Design and multibody dynamics analyses of the novel force-bearing structures for variable configuration spacecraft

AU - Ning, Xin

AU - Tang, Lin

AU - Gu, Junwei

AU - Liang, Chaobo

AU - Yue, Xiaokui

AU - Yuan, Jianping

PY - 2017/5/1

Y1 - 2017/5/1

N2 - Novel variable configuration spacecraft (VCS) can change its configuration by on-orbit assembly or the motion of the mechanism according to the requirements and missions, and the multibody dynamics analysis is performed to obtain the corresponding theoretical lowest values of the mechanical properties of force-bearing structures for the VCS module. In the meantime, to meet the actual use requirements for VCS, novel force-bearing structures are designed optimally and fabricated successfully. The corresponding experimental values of the mechanical properties for the force-bearing structures are also tested and investigated, which are compared to the corresponding theoretical values via multibody dynamics analysis. This paper is part of a large project on the development and preparation of the novel force-bearing structures applied in the next generation of VCS.

AB - Novel variable configuration spacecraft (VCS) can change its configuration by on-orbit assembly or the motion of the mechanism according to the requirements and missions, and the multibody dynamics analysis is performed to obtain the corresponding theoretical lowest values of the mechanical properties of force-bearing structures for the VCS module. In the meantime, to meet the actual use requirements for VCS, novel force-bearing structures are designed optimally and fabricated successfully. The corresponding experimental values of the mechanical properties for the force-bearing structures are also tested and investigated, which are compared to the corresponding theoretical values via multibody dynamics analysis. This paper is part of a large project on the development and preparation of the novel force-bearing structures applied in the next generation of VCS.

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KW - mechanical properties

KW - multibody dynamics analysis

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M3 - 文章

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JO - Science and Engineering of Composite Materials

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Design and multibody dynamics analyses of the novel force-bearing structures for variable configuration spacecraft

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