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Thermodynamic analysis of a space station remote manipulator with a harmonic drive that considers an integrated thermal protection layer. 被引量:8
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作者 ZHAO JieLiang YAN ShaoZe +2 位作者 WU JiaNing MA Wei HAN ZengYao 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2015年第11期1884-1893,共10页
To eliminate anomalies and improve the performance of a space station remote manipulator(SSRM) used in a dynamically changeable thermal environment, we analyze the thermodynamic behavior of an SSRM that considers an i... To eliminate anomalies and improve the performance of a space station remote manipulator(SSRM) used in a dynamically changeable thermal environment, we analyze the thermodynamic behavior of an SSRM that considers an integrated thermal protection system(ITPS). Solar radiative heat gain and loss become equally significant as conductive heat transfers through the interior of the SSRM on orbit. A thermodynamic model of the SSRM with a sandwich ITPS structure is established on the coupling between harmonic drive and changeable thermal environment. A motion precision is proposed to evaluate thermodynamic behavior under continuously changeable thermal circumstances. Simulation results indicate that the ITPS with a corrugated sandwich structure reduces the maximum amplitude of angular position errors to 41.6%, which helps improve the motion precision of the SSRM. The feasible regions for the SSRM in the Low Earth Orbit(LEO) and Geostationary Earth Orbit(GEO) are analyzed, which shows that the proportion of feasible region in LEO is significantly larger than that in GEO. 展开更多
关键词 space station remote manipulator integrated thermal protection system thermal analysis harmonic drive dynamic behavior
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