Dynamic modeling and analysis of the looped space tether transportation system based on ANCF
A high‐fidelity multibody‐system dynamic model of the looped tether transportation system (L‐TTS) is proposed in this study to study its large deformation as well as large overall motion. The absolute nodal coordinate formulation (ANCF)‐based gradient‐deficient beam element is employed to establish...
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| Published in | International journal of mechanical system dynamics Vol. 2; no. 2; pp. 204 - 213 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Nanjing
John Wiley & Sons, Inc
01.06.2022
Wiley |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2767-1402 2767-1399 2767-1402 |
| DOI | 10.1002/msd2.12044 |
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| Abstract | A high‐fidelity multibody‐system dynamic model of the looped tether transportation system (L‐TTS) is proposed in this study to study its large deformation as well as large overall motion. The absolute nodal coordinate formulation (ANCF)‐based gradient‐deficient beam element is employed to establish the accurate model of the two flexible tethers subject to large deformations. The relative movement of climbers along tethers is described by using the sliding joint model based on ANCF. To reduce the collision risks between tethers and climbers, two libration suppression strategies, namely, the decelerated motion of climbers relative to tethers and multiple climbers per tether are investigated in this study. Several numerical simulations not only validate the effectiveness of the two strategies in reducing the collision risks between climbers and tethers, the overall librations of L‐TTS, and the magnitudes of the longitudinal elastic force of tethers, but also verify the good performance of the high‐fidelity model proposed in this study for dynamic simulation of the L‐TTS in microgravity conditions. |
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| AbstractList | A high‐fidelity multibody‐system dynamic model of the looped tether transportation system (L‐TTS) is proposed in this study to study its large deformation as well as large overall motion. The absolute nodal coordinate formulation (ANCF)‐based gradient‐deficient beam element is employed to establish the accurate model of the two flexible tethers subject to large deformations. The relative movement of climbers along tethers is described by using the sliding joint model based on ANCF. To reduce the collision risks between tethers and climbers, two libration suppression strategies, namely, the decelerated motion of climbers relative to tethers and multiple climbers per tether are investigated in this study. Several numerical simulations not only validate the effectiveness of the two strategies in reducing the collision risks between climbers and tethers, the overall librations of L‐TTS, and the magnitudes of the longitudinal elastic force of tethers, but also verify the good performance of the high‐fidelity model proposed in this study for dynamic simulation of the L‐TTS in microgravity conditions. Abstract A high‐fidelity multibody‐system dynamic model of the looped tether transportation system (L‐TTS) is proposed in this study to study its large deformation as well as large overall motion. The absolute nodal coordinate formulation (ANCF)‐based gradient‐deficient beam element is employed to establish the accurate model of the two flexible tethers subject to large deformations. The relative movement of climbers along tethers is described by using the sliding joint model based on ANCF. To reduce the collision risks between tethers and climbers, two libration suppression strategies, namely, the decelerated motion of climbers relative to tethers and multiple climbers per tether are investigated in this study. Several numerical simulations not only validate the effectiveness of the two strategies in reducing the collision risks between climbers and tethers, the overall librations of L‐TTS, and the magnitudes of the longitudinal elastic force of tethers, but also verify the good performance of the high‐fidelity model proposed in this study for dynamic simulation of the L‐TTS in microgravity conditions. |
| Author | Li, Gangqiang Yang, Jie Liu, Zhendong Zhang, Zhiyong Xu, Shidong Wang, Qingtao |
| Author_xml | – sequence: 1 givenname: Jie surname: Yang fullname: Yang, Jie organization: Nanjing University of Science and Technology – sequence: 2 givenname: Qingtao orcidid: 0000-0001-5409-3589 surname: Wang fullname: Wang, Qingtao email: qtwang@njust.edu.cn organization: Nanjing University of Science and Technology – sequence: 3 givenname: Zhiyong surname: Zhang fullname: Zhang, Zhiyong organization: Nanjing University of Science and Technology – sequence: 4 givenname: Zhendong surname: Liu fullname: Liu, Zhendong organization: Shanghai Aerospace System Engineering Institute – sequence: 5 givenname: Shidong surname: Xu fullname: Xu, Shidong organization: Nanjing University of Aeronautics and Astronautics – sequence: 6 givenname: Gangqiang surname: Li fullname: Li, Gangqiang organization: York University |
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| SubjectTerms | absolute nodal coordinate formulation Accuracy Artificial satellites Deformation effects Dynamic models Elastic deformation Finite element method high‐fidelity model Libration libration suppression looped tether transportation system Microgravity Movement Multibody systems Payloads sliding joints Tethers Transportation systems |
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| Title | Dynamic modeling and analysis of the looped space tether transportation system based on ANCF |
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