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强冲击LY12铝靶产生闪光的辐射强度演化特征 被引量:3

Evolutionary characteristics of radiation intensity for light flash created by strong shock LY12 aluminum target
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摘要 采用理论推导与实验相结合的方法,研究了强冲击LY12铝靶产生闪光的辐射强度演化特征。利用建立的光纤瞬态高温计测量系统与二级轻气炮加载系统,进行了6种实验条件下的强冲击实验。每组实验使用1组光纤探头,光纤探头直接对准碰撞点安装。通过实验所获原始数据结合标定得到了闪光辐射强度随时间的变化关系。实验结果表明,在给定实验条件及光纤探头安装方案下,闪光信号上升阶段的上升系数和衰减阶段的衰减系数在1~5之间。弹丸入射角度相同时,冲击速度越大,最大闪光辐射强度也越大。LY12铝弹丸强冲击LY12铝靶产生的最大闪光辐射强度,对测量波长为488~667nm范围内的幂指数值在7.5~9.0之间变化。 Evolutionary characteristics of radiation intensity for light flash generated by shocking strongly LY12aluminum target were studied by the way to theoretical derivation and experiment.Experiments were performed under six kinds of experimental conditions using established optical pyrometer measurement system,which was loaded by two-stage light gas gun system.One set of optical fiber probe was used in every experiment,installed directly into impact point.Relationships of light flash radiation intensity were acquired by original data from experiment combined with calibration.Experimental results show that the power exponents of rising phase and decay phase for the light flash radiation signals were between 1and 5under current experimental condition and optical fiber probe scheme.The maximum light flash intensity increased with impact velocity increasing at the same incidence angles of the projectile.Variations of power exponent of maximum light flash radiation intensity produced by LY12Aluminum projectile into LY12aluminum target were 7.5to 9.0for wavelength in the range from 488nm to 667nm.
作者 唐恩凌 施晓涵 王猛 相升海 刘淑华 杨明海 张薇 李乐新
机构地区 沈阳理工大学装备工程学院
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2014年第7期253-258,共6页 High Power Laser and Particle Beams
基金 国家自然科学基金项目(11272218 10972145 11032003) 辽宁省高校优秀人才支持计划(LR2013008) 辽宁省"百千万人才工程"培养经费资助项目 辽宁省兵器科学与技术重点实验室开放基金资助项目
关键词 强冲击 碰撞闪光 高温计 辐射强度 演化特征 strong shock impact light flash pyrometer light flash radiation intensity evolutionary characteristics
分类号 O383 [理学—流体力学] O531 [理学—等离子体物理]
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参考文献17

  • 1Gehring J W, Warnica R L. An investigation of the phenomena of impact flash and its potential use as a hit detection and target discrimina tion technique[C]//Proceedings of the Sixth Symposium on Hypervelocity Impact. 1963: 627-681.
  • 2Burchell M J, Cole M J, Ratcliff P R. Light flash and ionization from hypervelocity impacts on ice[J]. Icarus, 1996, 122(2) : 359-365.
  • 3Baird J K, Hough G R, King T R. Velocity dependence of impact fluorescence[J]. International Journal of Impact Engineering, 1997, 19 (3): 273-276.
  • 4Baird J K, King T R. A wien displacement law for impact radiation[J]. International Journal of Impact Engineering, 1999, 23(1): 39- 49.
  • 5Ernst C M, Schultz P H. Effect of initial conditions on impact flash decay[C]//34th Annual Lunar and Planetary Science Conference. 2003: 2020.
  • 6Dahl J M, Schultz P H. Measurement of stress wave asymmetries in hypervelocity projectile impact experiments[J] International Journal of Impact Engineering, 2001, 26(1/10) : 145-155.
  • 7Pierazzo E, Melosh H J. Understanding oblique impacts from experiments, observations, and modeling[J] Annual Review of Earth and Planetary Sciences, 2000, 28: 141-167.
  • 8Pierazzo E, Melosh H J. Melt production in oblique impacts[J]. Icarus, 2000, 145(1): 252-261.
  • 9Schultz P H, Gault D E. Prolonged global catastrophes from oblique impacts[C]//Geological Society of America. 1990, 247: 239-262.
  • 10Schultz P H. Effect of impact angle on vaporization[J]. Journal of Geophysical Research, 1996, 101(Eg) : 21117-21136.

二级参考文献44

  • 1唐恩凌,张庆明,黄正平.PMT在测量超高速碰撞闪光趋势中的应用[J].北京理工大学学报,2007,27(4):283-286. 被引量:4
  • 2Ang J A. Impact Flash Jet Initiation Phenomenology[ J]. Journal of Impact Engng. , 1990,10:23 - 33.
  • 3Ernst C M, Schuhz P H. Effect of initial conditions on impact flash decay [ C ]. Brown University, Department of Geological Sciences, Box 1846, Providence, RI 02912.
  • 4Keneth E, Kynric, Pell M, et al. Analytical model of the flash produced in aluminum-aluminum hypervelocity impacts [ J ]. J. SPACECRAFT,2004,19 ( 5 ) :682.
  • 5Nebolsine P E, Gelb A H, Krech R H. Impact flash measurements and color temperature determination versus impact velocity [J]. 1996A1AA Space Programs and Technologies Conference, September, 1996 : 24 - 26.
  • 6Baird J K, Hough G R, King T R. Velocity dependence of impact fluorescence[J]. Int. J. Impact Engng, 1997, 19(3):273- 276.
  • 7Birkhoff G, MacDougall D P, Pugh E M, et al. Explosives in lined cavities[ J-. Journal of Applied Physics, 1948, 19: 563.
  • 8Wridht J K. Shocks Tubes[ M]. Mcthuen and Co. Ltd, London, 1961, 19.
  • 9Marsh S P. Shock Hugoniot Data. University of California Press, Berkeley, CA, 1980.
  • 10Zel'dovich, Ya B, Raizer, et al. Physics of Shock Waves and Hgh-Temperature Phenomena[ M ]. Academic Press, New York, 1966, 11, Chapt. X.

共引文献15

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强激光与粒子束
2014年 第7期

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