航天器防污染真空试验设备

doi:10.13385/j.cnki.vacuum.2021.01.11

Abstract

Abstract: This paper presents a new vacuum baking facility based on the vacuum-baked method and blackbody heating technology, which can realize contaminant collection and high precision temperature control of the complex shaped spacecraft. Furthermore, the experimental approach presented is validated based on measurement data of the GCMS. The results show that the vacuum baking facility can control the contaminant in the test effectively. This new method allows versatile and adaptive test of the spacecraft.

Key words: contaminant cleaning, vacuum baking facility, blackbody heating, condenser plate

CLC Number:

V146.5

DONG Dong, JING Jia-rong, DONG De-sheng, SHI Cheng-tian, REN Wei-song, SUN Ling, CHEN Ya-hui. Vacuum Baking Facility for Contaminant Cleaning for Spacecraft[J].VACUUM, 2021, 58(1): 51-56.

References

[1] Tribble A C, Boyadjian B, Davis J, et al.Contamination control engineering design guidline for the aerospace community[R/OL]. [1996-11-11].https://doi.org/10.1117/12.258298.
[2] 周传良. 航天器研制过程的污染清除技术[A]. 航天第十信息网, 2001年度学术交流会论文集[C]. 2001.
[3] NASA Goddard Space Flight Center. Contamination control program: PD-ED-1233[R].
[4] Armiger J.GLAST large area telescope: Thermal vacuum test: plans and procedures[EB/OL]. [2011-04-10].
[5] 国防科学技术工业委员会. 运载器、上面级和航天器试验要求: GJB 1027A-2005[S]. 北京: 国防科工委军标出版发行部, 2006: 18-26.
[6] 周传良. 高度污染敏感有效载荷的真空烘烤技术[J]. 航天器环境工程, 2006, 23(6): 340-343.
[7] 中华人民共和国航空航天工业部. 卫星热真空试验污染控制方法: QJ 2321—1992[S]. 1992.
[8] 彭光东, 齐晓军, 陈丽, 等. KM5A空间环境试验设备研制[J]. 航天器环境工程, 2010, 27(4): 485-488.
[9] Crank J, Park G S.Diffusion in Polymer[M]. London: Academic Press Inc. , London, 1968.
[10] Peter W K, Lee A L.Application of temperature-dependent venting simulation for early orbit operation[C]33rd Aerospace Sciences Meeting and Exhibit. Reno, NV, 1995.
[11] Hajji A.Improving the performance of adsorption heat exchangers using a finned structure[J]. Int J Heat Mass Transfer, 1996, 139(8): 1677-1686.
[12] 王先荣, 颜则东. 分子凝结与凝结表面温度的关系机理研究[J]. 宇航学报, 2004, 25(3): 327-329.
[13] Ko H Y, Wen B J, Tsa S F.A high-emissivity blackbody with large aperture for radiometric calibration at low-temperature[J]. Int J Thermophys, 2009(30): 98-104.
[14] 王述彦, 师宇, 冯忠绪. 基于模糊PID 控制器的控制方法研究[J]. 机械科学与技术, 2011(1): 166-172.
[15] 苏静. 气相色谱仪技术与应用[J]. 粘接, 2019, 40(5): 118-121.

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Vacuum Baking Facility for Contaminant Cleaning for Spacecraft

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