24 October 2017 Modal simulation and experimental verification of space-borne two dimensional turntable
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Proceedings Volume 10463, AOPC 2017: Space Optics and Earth Imaging and Space Navigation; 1046317 (2017) https://doi.org/10.1117/12.2284587
Event: Applied Optics and Photonics China (AOPC2017), 2017, Beijing, China
In order to avoid the resonance between the two dimensional turntable and the satellite, the modal simulation of the two dimensional turntable is carried out in this paper. And the simulation results are compared with the experimental results, combined with modal experiment, the simulation results before and after optimization are further verified. Firstly, two dimensional turntable as the research object in this paper, and it is modeled with the finite element method, then we use Patran/Nastran to conduct the modal simulation. In the modal simulation process, the bearing can be equivalent to the spring element, and the MPC element is used to instead of the spring element. And we introduce the modeling method of the MPC unit, the fundamental frequency of two dimensional turntable is obtained through modal simulation. At last, the model experiment is verified by hammering method, the frequency response functions in each direction of x, y and z are measured. Simulations and experimental results show: after optimization, the fundamental frequency of the two dimensional turntable is 42 Hz, which is higher than that of the base frequency 25 Hz, illustrating that the optimized structural design of the two dimensional turntable meets the requirements; The natural frequency and the experimental errors of three - dimensional turntable in x, y, z are 5%, which shows that MPC can simulate the bearing accurately, and is suitable for the simulation of two dimensional turntable.
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Dinghua Zou, Dinghua Zou, Zhiguo Li, Zhiguo Li, Zhaohui Liu, Zhaohui Liu, Kai Cui, Kai Cui, Yongqiang Zhang, Yongqiang Zhang, Liang Zhou, Liang Zhou, } "Modal simulation and experimental verification of space-borne two dimensional turntable", Proc. SPIE 10463, AOPC 2017: Space Optics and Earth Imaging and Space Navigation, 1046317 (24 October 2017); doi: 10.1117/12.2284587; https://doi.org/10.1117/12.2284587


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