共查询到18条相似文献,搜索用时 140 毫秒
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为快速确定与预报卫星在轨爆炸解体产生的大量空间碎片的轨道,提出了一种基于ANSYS/AUTODYN、MATLAB、STK等多软件平台联合仿真分析卫星结构爆炸解体碎片运行轨道的方法。利用ANSYS/AUTODYN对典型薄壁圆柱模拟地球同步轨道卫星结构进行爆炸数值分析,得到碎片的数量、质量分布和速度特性信息。再利用MATLAB软件对卫星爆炸仿真得到的碎片参数进行处理,将处理后的数据导入到STK软件的通用摄动SGP4模型中,得出卫星爆炸碎片的早期轨道数据。最后对爆炸碎片的轨道分布、速度增量、轨道演化等进行分析。结果表明:该方法能满足大量爆炸碎片的轨道仿真要求,能有效提高碎片轨道信息转换效率,对目前难以跟踪的cm级以下碎片,也能提供相应的初始轨道数据,使用方便,通用性好。研究结果可为快速捕获卫星爆炸碎片,及时规避航天器碰撞风险提供参考。 相似文献
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空间碎片防护研究最新进展 总被引:2,自引:0,他引:2
空间碎片对在轨航天器的安全运行构成了严重威胁,对航天器的撞击事件频繁发生。随着空间碎片环境的日趋恶化,航天器的防护变得越来越重要。文章从空间碎片环境模型、撞击风险评估、航天器部件损伤、防护材料与结构的超高速撞击试验、撞击试验数据库建设、超高速发射设备、在轨撞击感知、机构间超高速发射设备交叉校验等方面对国内外空间碎片防护研究的进展进行了总结,并在此基础上给出我国未来空间碎片防护研究的发展建议。 相似文献
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卫星在轨操作任务主要包括在轨燃料加注、在轨模块更换、在轨发射、在轨空间碎片清除等。值得指出的是,在轨操作可以针对己方航天器进行,也可以针对敌方航天器进行。能够通过在轨加注延长航天器寿命,也可以利用交会对接和空间机械手技术将敌方航天器拖离目标轨道,具有巨大的商业和军用潜力。 相似文献
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Sheng-wei Lan Sen LiuAuthor VitaeYi LiAuthor Vitae Fa-wei KeAuthor VitaeJie HuangAuthor Vitae 《Acta Astronautica》2014
Cross-sectional area is an important parameter for spacecraft breakup debris as it is the directly measured data in space observation. It is significant for observing and analysing the spacecraft breakup event to accurately modelling the area distribution of the breakup debris. In this paper, experimental study has been performed on debris area distribution characteristics of spacecraft under hypervelocity impact. The tests are carried out at the ballistic ranges of CARDC. Aluminium projectiles are launched to normally impact the simulated spacecrafts at about 3.0 km/s. The simulated spacecrafts are made up of aluminium plates, filled with some simulated electronics boxes, each of which was installed with a circuit board. “Soft-catch” devices are used to recover the breakup fragments. The test results show that: 1) the relationship between the cross-sectional area and the characteristic length of debris, which can be obtained in the logarithmic coordinates by linear fitting, represents the debris shape characteristic in a certain extent; 2) the area-to-mass ratios of fragments show normal distributions in the logarithmic coordinates; 3) debris made of different materials can be distinguished by different peaks on the distribution curves; 4) the area-to-mass ratio distributions can be expressed by a linear superimposition of several normal functions which represent the main materials of the spacecraft. 相似文献
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Optical orbital debris spotter 总被引:1,自引:0,他引:1
Christoph R. Englert J. Timothy Bays Kenneth D. Marr Charles M. Brown Andrew C. Nicholas Theodore T. Finne 《Acta Astronautica》2014
The number of man-made debris objects orbiting the Earth, or orbital debris, is alarmingly increasing, resulting in the increased probability of degradation, damage, or destruction of operating spacecraft. In part, small objects (<10 cm) in Low Earth Orbit (LEO) are of concern because they are abundant and difficult to track or even to detect on a routine basis. Due to the increasing debris population it is reasonable to assume that improved capabilities for on-orbit damage attribution, in addition to increased capabilities to detect and track small objects are needed. Here we present a sensor concept to detect small debris with sizes between approximately 1.0 and 0.01 cm in the vicinity of a host spacecraft for near real time damage attribution and characterization of dense debris fields and potentially to provide additional data to existing debris models. 相似文献
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Visualizing Impact Probabilities of Space Debris 总被引:1,自引:0,他引:1
We present a new method to assess and visualize the collision risk due to space debris for an orbiting spacecraft. It is based on a parameter space derived from Öpik's studies of close approaches between small Solar System bodies and the planets. By means of this representation, many useful insights into the dynamics of the overall debris population with respect to a selected target can be obtained. The method can also be applied to estimate the increase in impact hazard (e.g., for the International Space Station) associated to fragmentation events occurring on a specific orbit. 相似文献
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