| 克服地球轨道空间碎片的航天器防护结构几何规划设计 |
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| 引用本文: | 李声远.克服地球轨道空间碎片的航天器防护结构几何规划设计[J].航天器环境工程,2000(4). |
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| 作者姓名: | 李声远 |
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| 作者单位: | 北京卫星环境工程研究所 北京100029 |
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| 摘 要: | 文章描述了一个用于航天器防护结构综合优化的独特方法——几何规划优化技术,以减小暴露于流星体和空间碎片超高速碰撞环境下的航天器防护结构系统的重量。空间碎片和流星体环境由广义加权目标函数的公式来定义。通过Wilkinson,Burch和Nysmith超高速碰撞预示模型说明几何规划的性能。表明遵循几何规划形式的超高速碰撞模型,可以进行综合非线性设计优化。
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| 关 键 词: | 空间碎片环境 超高速碰撞预示 几何规划设计 防护结构 |
GEOMETRIC PROGRAMMING DESIGN OF SPACECRAFT PROTECTIVE STRUCTURES TO DEFEAT EARTH-ORBITAL SPACE DEBRIS |
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| Li Shengyuan.GEOMETRIC PROGRAMMING DESIGN OF SPACECRAFT PROTECTIVE STRUCTURES TO DEFEAT EARTH-ORBITAL SPACE DEBRIS[J].Spacecraft Environment Engineering,2000(4). |
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| Authors: | Li Shengyuan |
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| Abstract: | A unique methodology providing global optimization of spacecraft protective structures is presented to minimize spacecraft weight of protective structural systems exposed to meteoroid and space debris hypervelocity impacts.The space debris and meteoroid environment are defined followed by the formulation of the general weight objective function.The Wilkinson,Butch,and Nysmith hypervelocity impact predictor models are then used to display Geometric Programming capabilities.Results show that global nonlinear design optimization can be performed for hypervelocity impact models that follow the Geometric Programming form. |
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| Keywords: | Space debris environment Hypervelocity impact prediction Geometric programming design Protective structure |
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