高超声速稀薄流中单蒙皮刨削再入弹道分析

2021 7th International Conference on Mechanical Engineering and Automation Science (ICMEAS) Pub Date : 2021-10-01 DOI:10.1109/ICMEAS54189.2021.00049

Jian Guo, S. Fang, Shuai Zhang, Qiu Jian Rao

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引用次数: 0

摘要

对不同翼载和升阻比(L/D)条件下的单面伞翼作为再入阶段的低翼载减速器进行了再入弹道研究。结果表明:动压和峰值热流密度随机翼载荷的增大而增大，但过载随机翼载荷的增大而减小;当升力系数增大或阻力系数减小时，再入时的动压力和动峰值载荷均减小。热流密度随升力系数的增大而减小，随阻力系数的减小而增大。可以得出，在增大升力系数的同时，保持较大的阻力系数有利于缓解再入过程中的气动加热问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Reentry trajectory analysis of single-skinned parawing used in the hypersonic rarefied flow

The single-skinned parawing with different wing loads and lift-to-drag(L/D), as a low wing loading decelerator during the stage of reentry, has been studied in reentry trajectory. The results show that the dynamic pressure and peak heat flux increase with the increase of the wing load, but the overload decreases with the increase of the wing load. When the lift coefficient is increased or the drag coefficient is reduced, the dynamic pressure and the dynamic peak load of the parawing are decreased during the reentry. The heat flux decreases with the increase of the lift coefficient and increases with the decrease of the drag coefficient. It can be obtained that while increasing the lift coefficient, maintaining a large drag coefficient is conducive to alleviating the aerodynamic heating problem during the reentry process.

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2021 7th International Conference on Mechanical Engineering and Automation Science (ICMEAS)

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