Symplectic analysis on orbit-attitude coupling dynamic problem of spatial rigid rod

Author:

Hu Weipeng12ORCID,Yin Tingting3,Zheng Wei4,Deng Zichen3

Affiliation:

1. School of Civil Engineering and Architecture, Xi’an University of Technology, China

2. State Key Laboratory of Eco-Hydraulics in Northwest Arid Region of China, Xi’an University of Technology, China

3. Key Laboratory Ministry of Dynamics and Control of Complex System of Industry and Information Technology, Northwestern Polytechnical University, China

4. Qian Xuesen Laboratory of Space Technology, China Academy of Space Technology, China

Abstract

An orbit-attitude coupling dynamic model for the spatial rigid rod that is abstracted from the large-stiffness slender components widely used in spatial structures is established, and the symplectic method is used to estimate the validity of the dynamic model by analyzing the coupling dynamic behaviors of the rod in this work. Based on the Hamiltonian variational principle, the orbit-attitude dynamic model of the spatial rigid rod is proposed, and the canonical form of the model is presented first. Then, the symplectic Runge–Kutta method is developed, and the structure-preserving properties of the canonical form, including the conservation law of energy and conservative property in the phase space, are investigated to illustrate the validity of the numerical results obtained by the symplectic Runge–Kutta method subsequently. Finally, the effects of the nonspherical perturbations of the Earth on the coupling dynamic behaviors are investigated numerically. From the simulation results, it can be concluded that the main orbit-attitude coupling dynamic behaviors of the spatial large-stiffness slender component excited by the nonspherical perturbation can be described by the proposed dynamic model ignoring the deformation as well as the transverse vibration of the slender component, which provides an approach for simplifying rapid dynamic analysis on the spatial large-stiffness slender component. In addition, the validity and the structure-preserving properties of the symplectic Runge–Kutta method for the orbit-attitude coupling dynamic problem of the spatial rigid rod are also illustrated.

Funder

National Natural Science Foundation of China

Fund for Distinguished Young Scholars of Shaanxi Province

Open Foundation of State Key Laboratory of Structural Analysis of Industrial Equipment

Publisher

SAGE Publications

Subject

Mechanical Engineering,Mechanics of Materials,Aerospace Engineering,Automotive Engineering,General Materials Science

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