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KS-B高吸收高发射率无机热控涂层低轨环境效应 被引量:2
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作者 丁为 白晶莹 +3 位作者 蔺鹏婷 吴琼 孟腾 张家强 《表面技术》 EI CAS CSCD 北大核心 2020年第12期38-43,共6页
目的研究低轨环境对KS-B高吸收高发射无机热控涂层(简称KS-B涂层)性能的影响。方法对KS-B涂层分别进行总剂量为3.9×1022 atoms/cm2的原子氧辐照、剂量为5000 ESH的真空-紫外辐照、总注量为9.30×1011p/cm2的真空-质子及总注量... 目的研究低轨环境对KS-B高吸收高发射无机热控涂层(简称KS-B涂层)性能的影响。方法对KS-B涂层分别进行总剂量为3.9×1022 atoms/cm2的原子氧辐照、剂量为5000 ESH的真空-紫外辐照、总注量为9.30×1011p/cm2的真空-质子及总注量为1.108×1014e/cm2的真空-电子综合辐照试验,分析空间模拟辐照环境中KS-B涂层太阳吸收比(αS)、半球发射率(εH)、表面形貌、表面组分含量、质量损失率等性能的变化规律,研究KS-B涂层的耐空间环境稳定性。结果原子氧暴露后,KS-B涂层太阳吸收比增加0.003,半球发射率增加0.004;原子氧辐照后,KS-B涂层表面形貌出现了一定程度的糙化,表面Si、O元素含量下降。初始暴露时,KS-B涂层质量损失率逐渐提高,最终质量损失率为0.96%。真空-紫外辐照后,KS-B涂层太阳吸收比增加0.003,半球发射率无变化。真空-质子及真空-电子辐照前后,KS-B涂层太阳吸收比增加0.001,半球发射率无变化。结论经历原子氧、真空-紫外、真空-质子及真空-电子模拟辐照后,KS-B涂层的太阳吸收比及半球发射率变化较小,具有较好的耐空间辐照性能,可以满足空间站等低轨航天器的长寿命服役需求。 展开更多
关键词 低轨环境 高吸收高发射 无机热控涂层 太阳吸收比 半球发射率
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Design and optimization of low-energy transfer orbit to Mars with multi-body environment 被引量:3
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作者 LU Yi LI HengNian +4 位作者 LI JiSheng CHE Zheng YANG YiKang YANG Yuan SUN Yang 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2015年第10期1660-1671,共12页
This paper discusses the problem of design and optimization of low-energy transfer orbit with multi-body environment. A new integrative method is proposed to effectively solve the problem, in which the parameterized p... This paper discusses the problem of design and optimization of low-energy transfer orbit with multi-body environment. A new integrative method is proposed to effectively solve the problem, in which the parameterized patched manifolds in CR3BP(circular restricted three-body problems), the shape-based method with multi-body environment, the homotopic method with multi-body environment, and the low-thrust capturing and descending algorithm with multi-body environment are all included. Firstly, the parameters describing the patched manifolds in CR3 BP are optimized until the least total absolute velocity increment has been got, including the employment of the shape-based method with multi-body environment. Secondly, the low-thrust control laws of the transfer orbit are optimized employing the homotopic method with multi-body environment that transfers the fuel optimization problem to an easier energy optimization problem. Thirdly, the low-thrust descending orbit around Mars is computed using the laws proposed in this paper. As a typical example, the Earth-Mars transfer orbit design is discussed. The results showed that the parameters describing the patched manifolds could be optimized by the DE(differential evolution) algorithm effectively; the homotopic method with multi-body environment could get the optimal value that meets the first order optimality conditions; and the low-thrust descending orbit could effectively be captured by Mars and finally become a circular parking orbit around it by the hypothesis control laws proposed in this paper. It shows that the final fuel cost is much less than the optimal transfer in the patched two-body problems. In conclusion, the method proposed in this paper could effectively solve the low-energy low-thrust optimal control problem in multi-body environment for the future deep space explorations. 展开更多
关键词 orbit optimization multi-body patched manifolds LOW-ENERGY LOW-THRUST
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