| 飞船返回舱跨声速全局稳定性研究 |
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| 引用本文: | 何开锋,和争春.飞船返回舱跨声速全局稳定性研究[J].飞行力学,1999,17(3):34-38. |
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| 作者姓名: | 何开锋 和争春 |
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| 作者单位: | 中国空气动力研究与发展中心,四川绵阳,621000 |
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| 摘 要: | 根据国内外在飞船返咽舱这类短钝飞行器的亚、跨声速风洞试验中都发现了极限环振动形态这一问题,利用全局稳定性分析和数字仿真方法,研究了返回舱在跨声速和高亚声带飞行时的动稳定性,得到与风洞试验类似的结果,即返回舱处于极限环振动形态。因此,在返回舱再入亚、跨声这飞行段,为保证飞行安全,采用有效和可靠的姿态控制系统来控制和减缓动不稳定影响是必需的。
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| 关 键 词: | 返回舱 动稳定性 全局稳定性分析 数字仿真 极限环 |
| 修稿时间: | 1998年11月2日 |
The Global Stability Analysis of Reentry Capsule Transonic Flight |
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| He Kaifeng,He Zhengchun.The Global Stability Analysis of Reentry Capsule Transonic Flight[J].Flight Dynamics,1999,17(3):34-38. |
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| Authors: | He Kaifeng He Zhengchun |
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| Institution: | China Aerodynamics Research and Development Center |
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| Abstract: | The transonic aerodynamic and dynamic characteristics of reentry capsules play an important part in its design. For short blunt aircraft such as reentry capsule, limiting circle oscillation forms have been discovered in subsonic and transonic wind tunnel experiments. In the present paper, global stability analysis and numerical simulation is employed to research the dynamic stability of a reentry capsule at transonic and high subsonic speed. The results show that the capsule is in limiting circle oscillation. This conclusion is agreement on the results obtained from wind tunnel experiments. Therefore, an effective and reliable attitude control system, which is used to eliminate or reduce the dynamic instability, is necessary during subsonic and transonic reentry flight. |
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| Keywords: | Reentry capsule Dynamic stability Global stability analysis Numerical simulation Limiting circle |
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