浅析星箭电气系统可靠性

doi:10.16628/j.cnki.2095-8188.2020.10.017

摘要/Abstract

摘要：

首先,对国内外近期运载火箭发射情况与可靠性进行了简要回顾,列举了中、美、俄三国针对星箭可靠性问题所开展的典型研究;随后,从工作失效与贮存失效两个方面归纳总结了开展星箭电气系统可靠性研究所面临的4项关键问题。最后,针对所归纳的关键性问题,进一步对星箭电气系统可靠性研究未来可能的发展方向进行了探讨。

关键词: 人造卫星, 火箭, 电气系统, 可靠性, 质量一致性

Abstract:

The launch schedule and reliability of recent launch vehicles around the world were briefly reviewed at first,and the typical studies carried out by China,United States,and Russia on the reliability of satellite and rocket were enumerated.Then,four key problems in the reliability research of electrical system in satellite and rocket were summarized from two aspects of working failure and storage failure.Finally,according to these key problems,the possible future development direction of the reliability research of electrical system in satellite and rocket was discussed.

Key words: artificial satellite, rocket, electrical system, reliability, quality consistency

中图分类号:

TM56

李强, 林义刚, 叶雪荣, 翟国富. 浅析星箭电气系统可靠性[J]. 电器与能效管理技术, 2020, 0(10): 114-122.

LI Qiang, LIN Yigang, YE Xuerong, ZHAI Guofu. Analysis on Reliability Problems of Electrical System in Satellite and Rocket[J]. LOW VOLTAGE APPARATUS, 2020, 0(10): 114-122.

参考文献 56

[1]	BODE V, KAISER G. Building Hitler’s Missiles:Traces of History inPeenemünde[M]. Berlin:Christoph Links Verlag, 2008.
[2]	王芳.苏联对纳粹德国火箭技术的争夺(1944~1945)[J]. 自然科学史研究, 2013(4):523-537.
[3]	杨志飞.可靠性概念讲义[Z/OL]. 2015 -02-03.https://wenku.baidu.com/view/295195e7daef5e f7bb0d3c12.html
[4]	刘惟信. 机械可靠性设计[M]. 北京: 清华大学出版社, 1996.
[5]	王芳.苏联对德国V-2火箭的技术复原(1945-1947)[J]. 工程研究:跨学科视野中的工程, 2014(2):190-204.
[6]	Falko Bell. Britische Feindaufklärungim Zweiten Weltkrieg:Stellenwert und Wirkung der "Human Intelligence" in der britischenKriegführung 1939-1945[M]. Paderborn:Verlag Ferdinand Schöningh, 2017.
[7]	Anatoly Zak.First artificial satellite orbits the Earth[EB/OL]. 2018- 10- 04. http://www.russianspaceweb.com/sputnik_mission.html.
[8]	Earth Sky. Today in science:Launch of Explorer 1[EB/OL].2020-01-31..
[9]	刘畅, 来肖华, 陈琛. 中国第一颗人造地球卫星研制纪实[J].中国航天, 2020(4):27-32.
[10]	廖炯生. 长寿命卫星的可靠性问题[J].中国空间科学技术, 1983(3):35-40.
[11]	NASA.NASA Space Science Data Coordinated Archive:Explorer 7X[EB/OL]. 2020 -05-14. https://nssdc.gsfc.nasa.gov/nmc/spacecraft/display.action?id=EXP-7X.
[12]	Peter van der Linden. Expert C Programming:Deep C Secrets[M]. Mountain view: SunSoft Press, 1994.
[13]	BOEHM J, FICHTNER H J, HOBERG O A. Explorer Satellites Launched by Juno 1 and Juno 2 Vehicles[R]. Huntsville:NASA Marshall Space Flight Center, 1962: 168-169.
[14]	CASSIDY J L, JOHNSON R I, LEVEYE J C, et al. The Mercury-Redstone Project[R]. Huntsville:NASA Marshall Space Flight Center, 1964: 6-10.
[15]	王宏伟. 从V2到“阿丽亚娜”-法国早期运载火箭研制内幕[J].现代兵器, 1996(5):42-44.
[16]	HOBNUKOBHH, 薛淦.火箭技术的可靠性问题[J].国外导弹与航天运载器, 1990(10):68-70.
[17]	曲生. 戈达德中心对104颗卫星的长寿命和工作可靠性研究[J].国际太空, 1983(增刊1):58-63.
[18]	薛毅, 张志国, 伍招冲. 关于卫星设计寿命的思考[J].中国航天, 2017(6):26-28.
[19]	孔晓燕. 最美的颜色是“东方红”——全新大型东方红五号平台首飞成功[J].国际太空, 2020(1):18-22.
[20]	Ed Kyle. 2020 Space Launch Report[EB/OL]. 2020-06-17.https://www.spacelaunchreport.com/log2020.html#stats.
[21]	新华网.一箭双星!新技术试验卫星G星、H星发射成功[EB/OL]. 2020- 05- 30. http://www.xinhuanet.com/tech/2020-05/30/c_1126051922.htm.
[22]	新华社.我国成功发射遥感三十号06组卫星[EB/OL]. 2020- 03- 24. http://www.xinhuanet.com/2020-03/24/c_1210527852.htm.
[23]	央视网.海洋一号D卫星发射成功[EB/OL]. 2020- 06- 11. http://m.news.cctv.com/2020/06/10/ARTIUNkWBr1VEELjMe2eTj2E200610.shtml.
[24]	央视网.一箭4星!我国成功发射“吉林一号”宽幅01星搭载发射3颗小卫星[EB/OL]. 2020- 01- 15. http://m.news.cctv.com/2020/01/15/ARTIg3AERlttcGMV9LrfK8p5200115.shtml.
[25]	中国新闻网.一箭三星中国成功发射高分九号03星等3颗卫星[EB/OL]. 2020- 06- 17. http://www.chinanews.com/gn/2020/06-17/9214895.shtml.
[26]	新华网.长征五号B运载火箭首飞成功我国载人航天工程“第三步”任务开启[EB/OL]. 2020- 05- 05. http://www.xinhuanet.com/2020-05/05/c_1125944599.htm.
[27]	新华网.PALAPA-N1卫星发射失利[EB/OL]. 2020- 04- 09. http://www.xinhuanet.com/2020-04/09/c_1125834989.htm
[28]	龙威, 徐拓, 刘晓, 等. 关于我国商业运载火箭发展的思考[J].军民两用技术与产品, 2019(7):40-43.
[29]	Ed Kyle. 2019 Space Launch Report[EB/OL]. 2019- 12- 27. http://www.spacelaunchreport.com/log2019.html.
[30]	Ed Kyle.Worldwide Orbital Launch Summary by Year[EB/OL]. 2019-12-31. https://www.spacelaunchreport.com/logyear.html.
[31]	谭源源. 装备贮存寿命整机加速试验技术研究[D]. 长沙:中国人民解放军国防科技大学, 2010: 2-6.
[32]	刘子如. 火炸药老化失效模式及机理[J]. 火炸药学报, 2018,41(5):9-17.
[33]	魏小琴, 张伦武, 肖勇, 等. 延时电路在高温湿气环境中的腐蚀行为与机理研究[J]. 表面技术, 2018,47(7):209-214.
[34]	张生鹏, 李宏民, 赵朋飞. 导弹装备贮存寿命加速试验技术体系探讨[J]. 装备环境工程, 2018,15(2):92-96.
[35]	李久祥. 整机加速贮存寿命试验研究[J].质量与可靠性, 2004(4):14-17.
[36]	林震, 李宪珊, 姜同敏, 等. 整机产品加速贮存寿命试验研究思路探讨[J].环境与可靠性, 2006(4):38-41.
[37]	ROGERS W P, ARMSTRONG N A, ACHESON D C, et al.Report of the Presidential Commission on the Space Shuttle Challenger Accident—Chapter IV:The Cause of the Accident[EB/OL]. 1986-06-06. https://history.nasa.gov/rogersrep/v1ch4.htm.
[38]	贾大玲, 金志强. “长征”三号甲系列火箭发展历史与成就[J].航天工业管理, 2019(10):47-52.
[39]	范瑞祥, 程堂明, 李彩霞, 等. 长征七号运载火箭“2+9+2”可靠性工程综述[J]. 载人航天, 2017,23(3):285-289.
[40]	《中国航天》编辑部.“长征”五号大国重器——“长征”五号运载火箭概况[J].中国航天, 2020(1):8-17.
[41]	姚雨迎, 焦宇晟, 颉萌. 嫦娥四号中继星供配电分系统可靠性设计与验证[J]. 宇航总体技术, 2019,3(4):9-14.
[42]	中国航天报.运载院新研共鸣器可为重型火箭加上“消声器”[J].军民两用技术与产品, 2019(433):65.
[43]	崔帅, 张勇, 卢健, 等. 商用卫星元器件质量管理研究[J].质量与可靠性, 2019(3):63-66.
[44]	钱学森空间技术实验室发展战略研究部. 2019年中国商业航天发展研究[J]. 卫星应用, 2020(2):10-16.
[45]	BERGIN C.SpaceX to Begin Testing on Reusable Falcon 9 Technology this year[EB/OL]. 2012-01-11. https://www.nasaspaceflight.com/2012/01/spacex-testing-reusable-falcon-9-technology-this-year.
[46]	HAMLIN T, REISTLE B. Large satellite bus reliability[C].Probabilistic Safety Assessment and Management (PSAM) 14, 2018.
[47]	吴力力, 丁玉奎, 甄建伟. 国外弹药延寿研究现状[J].飞航导弹, 2018(3):74-77.
[48]	赵国柱, 黄长梅, 康开华, 等. 2019 年俄罗斯航天运载技术发展分析[J]. 飞航导弹, 2020(2):1-5.
[49]	彭越, 牟宇, 宋敬群. 中国下一代运载火箭电气系统技术发展研究[J]. 宇航总体技术, 2020,4(2):13-24.
[50]	易当祥, 张仕念, 赵韶平, 等. 装备发射可靠性建模与指标分配研究[J]. 电子产品可靠性与环境试验, 2015,33(1):15-19.
[51]	易当祥, 张仕念, 赵韶平, 等. 装备系统发射可靠性评估研究[J].环境技术, 2015(2):45-48.
[52]	YU B, ZHANG T, LIU T, et al. Reliability Evaluation and in-orbit residual life prediction for satellite Lithium-Ion batteries[J]. Mathematical Problems in Engineering, 2018,2018:1-12.
[53]	JIN G, MATTHEWS D E, ZHOU Z. A Bayesian framework for on-line degradation assessment and residual life prediction of secondary batteries inspacecraft[J]. ReliabilityEngineering & System Safety, 2013,113(1):7-20.
[54]	XING Y, MA E W M, TSUI K L, et al.An ensemble model for predicting the remaining useful performance of lithium-ion batteries[J]. Microelectronics Reliability, 2013,53(6):811-820. doi: 10.1016/j.microrel.2012.12.003
[55]	潘江江, 李洁, 姜爽, 等. 航天器锂电池贮存寿命预测技术研究[J]. 电源技术, 2018,42(11):1618-1621.
[56]	康锐. 确信可靠性理论与方法[M]. 北京: 国防工业出版社, 2020.