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FP-1装置铝套筒内爆动力学过程的一维磁流体力学模拟

张扬 戴自换 孙奇志 章征伟 孙海权 王裴 丁宁 薛创 王冠琼 沈智军 李肖 王建国

FP-1装置铝套筒内爆动力学过程的一维磁流体力学模拟

张扬, 戴自换, 孙奇志, 章征伟, 孙海权, 王裴, 丁宁, 薛创, 王冠琼, 沈智军, 李肖, 王建国
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  • 作为一种重要的柱面会聚冲击和准等熵压缩加载源,磁驱动固体套筒内爆技术已广泛应用于高能量密度物理实验研究.针对FP-1装置驱动的固体套筒内爆动力学过程,建立了含强度的一维磁流体力学模型,并对典型实验进行了模拟.计算获得的套筒内爆速度同实验结果较为相符.模拟结果显示,该装置在40 kV充压条件下,可以将直径3 cm,厚0.5 mm的铝套筒加速至1.1 km/s,内壁速度超过1.5 km/s,同时保持大部分材料为固体状态.内爆套筒与相同材料靶筒碰撞产生的冲击压力约9 GPa.改变靶筒内部填充气体的压力,可以获得不同的靶筒运动速度、轨迹以及反弹半径,以满足不同类型实验的研究需要.
      通信作者: 张扬, zhang_yang@iapcm.ac.cn
    • 基金项目: 国家自然科学基金(批准号:11405012,11675025,11471048,U1630249)、科学挑战专题(批准号:JCKY2016212A502)和计算物理实验室基金资助的课题.
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  • [1]

    Sun C W 2007 High Energ. Dens. Phys. 1 41 (in Chinese)[孙承纬 2007 高能量密度物理 1 41]

    [2]

    Savage M E, Bennett L F, Bliss D E, Clark W T, Coats R S, Elizondo J M, LeChien K R, Harjes H C, Lehr J M, Maenchen J E, McDaniel D H, Pasik M F, Pointon T D, Owen A C, Seidel D B, Smith D L, Stoltzfus B S, Struve K W, Stygar W A, Warne L K, Woodworth J R, Mendel C W, Prestwich K R, Shoup R W, Johnson D L, Corley J P, Hodge K C, Wagoner T C, Wakeland P E 2007 Proceedings of the 2007 IEEE Pulsed Power Conference 1-4 979

    [3]

    Davis J, Knudson M D, Brown J L 2017 AIP Conference Proceedings 1793 060015

    [4]

    Lemke R W, Knudson M D, Davis J 2011 Int. J. Impact Eng. 38 480

    [5]

    Martin M R, Lemke R W, McBride R D, Davis J P, Dolan D H, Knudson M D, Cochrane K R, Sinars D B, Smith I C, Savage M, Stygar W A, Killebrew K, Flicker D G, Herrmann M C 2012 Phys. Plasmas 19 056310

    [6]

    Lemke R W, Dolan D H, Dalton D G, Brown J L, Tomlinson K, Robertson G R, Knudson M D, Harding E, Mattsson A E, Carpenter J H, Drake R R, Cochrane K, Blue B E, Robinson A C, Mattsson T R 2016 J. Appl. Phys. 119 015904

    [7]

    Faehl R J, Anderson B G, Clark D A, Ekdahl C A, Goforth J H, Lindemuth I R, Reinovsky R E, Sheehey P T, Peterson T, Tabaka L J, Chernyshev V K, Mokhov V N, Buzin V N, Burenkov O M, Buyko A M, Vakhrushev V V, Garanin S F, Grinevich B E, Ivanova G G, Demidov V A, Dudoladov V I, Zmushko V V, Kuzyaev A I, Kucherov A I, Lovyagin B M, Nizovtsev P N, Petrukhin A A, Pishurov A I, Sofronov V N, Sokolov S S, Solovyev V P, Startsev A I, Yakubov V B, Gubkov E V 2004 IEEE Trans. Plasma Sci. 32 1972

    [8]

    Bowers R L, Brownell J H, Lee H, McLenithan K D, Scannapieco A J, Shanahan W R 1998 J. Appl. Phys. 83 4146

    [9]

    Chandler E, Egan P, Winer K, Stokes J, Douglas Fulton R, King N S P, Morgan D V, Obst A W, Oro D W 1997 Lawrence Livermore National Laboratory Report UCRL-JC-127667

    [10]

    Hammerberg J E, Kyrala G A, Ore D M, Fulton R D, Anderson W E, Obst A W, Oona H, Stokes J 1999 Los Alamos National Laboratory Report LA-UR-99-3378

    [11]

    Bowman D W, Ballard E O, Barr G, Bennett G A, Cochrane J C, Davis H A, Davis T O, Dorr G, Gribble R F, Griego J R, Hood M, Kimerly H J, Martinez A, MCcuistian T, Miller R B, Ney S, Nielsen K, Pankuch P, Parsons W M, Potter C, Ricketts R, Salazar H R, Scudder D W, Shapiro C, Thompson M C, Trainor R J, Valdez G A, Yonemoto W 1999 IEEE Int. Pulsed Power Conf. 2 933

    [12]

    Parsons W M, Ballard E O, Barr G W, Bowman D W, Cochrane J C, Davis H A, Elizondo J M, Gribble R F, Griego J R, Hicks R D, Hinckley W B, Hosack K W, Miller R B, Nielsen K E, Parker J V, Rickets R L, Salazar H R, Sanchez P G, Scudder D W, Thompson M C, Trainor R J, Valdez G A, Vigil B N, Waganaar W J, Watt R G, Wysocki F J 1999 IEEE Int. Pulsed Power Conf. 2 976

    [13]

    Davis H A, Ballard E O, Elizondo J M, Gribble R F, Nielsen K E, Parker J V, Parsons W M 2000 IEEE Trans. Plasma Sci. 28 1405

    [14]

    Reinovsky R E 2000 IEEE Trans. Plasma Sci. 28 1563

    [15]

    Rousculp C L, Oro D M, Morris C, Saunders A, Reass W, Griego J R, Turchi P J, Reinovsky R E 2015 Los Alamos Report LA-UR-15-22889

    [16]

    Rousculp C L, Oro D M, Griego J R, Turchi P J, Reinovsky R E, Bradley J T Ⅲ, Cheng B, Freeman M S, Patten A R 2016 Los Alamos Report LA-UR-16-21901

    [17]

    Oliphant T A, Witte K H 1987 Los Alamos National Laboratory Report LA-10826

    [18]

    Keinigs R K, Atchison W L, Faehl R J, Thomas V A, Mclenithan K D, Trainor R J 1999 J. Appl. Phys. 85 7626

    [19]

    Steinberg D 1996 Lawrence Livermore National Laboratory Report UCRL-MA106439

    [20]

    Lindemann F A 1911 Phys. Z 11 609

    [21]

    Qiu A C, Kuai B, Zeng Z Z, Wang W S, Qiu M T, Wang L P, Cong P T, L M 2006 Acta Phys. Sin. 55 5917 (in Chinese)[邱爱慈, 蒯斌, 曾正中, 王文生, 邱孟通, 王亮平, 丛培天, 吕敏 2006 物理学报 55 5917]

    [22]

    Wu J, Wang L P, Li M, Wu G, Qiu M T, Yang H L, Li X W, Qiu A C 2014 Acta Phys. Sin. 63 035205 (in Chinese)[吴坚, 王亮平, 李沫, 吴刚, 邱孟通, 杨海亮, 李兴文, 邱爱慈 2014 物理学报 63 035205]

    [23]

    Wu J, Li X, Li M, Li Y, Qiu A 2017 J. Phys. D:Appl. Phys. 50 403002

    [24]

    Zhao S, Xue C, Zhu X L, Zhang R, Luo H Y, Zou X B, Wang X X, Ning C, Ding N, Shu X J 2013 Chin. Phys. B 22 045205

    [25]

    Wang G J, Zhao J H, Sun C W, Liu C L, Tan F L, Luo B Q, Zhong T, Cai J T, Zhang X P, Chen X M, Wu G, Shui R J, Xu C, Ma X, Deng S Y, Tao Y H 2015 J. Exp. Mech. 30 252 (in Chinese)[王桂吉, 赵剑衡, 孙承纬, 刘仓理, 谭福利, 罗斌强, 种涛, 蔡进涛, 张旭平, 陈学秒, 吴刚, 税荣杰, 胥超, 马骁, 邓顺义, 陶彦辉 2015 力学实验 30 252]

    [26]

    Wang G J, Tan F L, Sun C W, Zhao J H, Wang G H, Mo J J, Zhang N, Wang X S, Wu G, Han M 2009 Chinese Journal of High Pressure Physics 4 266 (in Chinese)[王桂吉, 谭福利, 孙承纬, 赵剑衡, 王刚华, 莫建军, 张宁, 汪小松, 吴刚, 韩梅 2009 高压物理学报 4 266]

    [27]

    Cai J T, Wang G J, Zhao J H, Mo J J, Weng J D, Wu G, Zhao F 2010 Chinese Journal of High Pressure Physics 6 455 (in Chinese)[蔡进涛, 王桂吉, 赵剑衡, 莫建军, 翁继东, 吴刚, 赵峰 2010 高压物理学报 6 455]

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    [29]

    Wang G L, Guo S, Shen Z W, Zhang Z H, Liu C L, Li J, Zhang Z W, Jia Y S, Zhao X M, Chen H, Feng S P, Ji C, Xia M H, Wei B, Tian Q, Li Y, Ding Y, Guo F 2014 Acta Phys. Sin. 63 196201 (in Chinese)[王贵林, 郭帅, 沈兆武, 张朝辉, 刘仓理, 李军, 章征伟, 贾月松, 赵小明, 陈宏, 丰树平, 计策, 夏明鹤, 卫兵, 田青, 李勇, 丁瑜, 郭帆 2014 物理学报 63 196201]

    [30]

    Kan M X, Zhang Z H, Duan S C, Wang G H, Yang L, Xiao B, Wang G L 2015 High Power Laser and Particle Beams 27 125001 (in Chinese)[阚明先, 张朝辉, 段书超, 王刚华, 杨龙, 肖波, 王贵林 2015 强激光与粒子束 27 125001]

    [31]

    Yang L B, Sun C W, Liao H D, Hu X J 2002 High Power Laser and Particle Beams 14 767 (in Chinese)[杨礼兵, 孙承纬, 廖海东, 胡熙静 2002 强激光与粒子束 14 767]

    [32]

    Zhang Z W, Wei Y, Sun Q Z, Liu W, Zhao X M, Zhang Z H, Wang G L, Guo S, Xie W P 2016 High Power Laser and Particle Beams 28 045017 (in Chinese)[章征伟, 魏懿, 孙奇志, 刘伟, 赵小明, 张朝辉, 王贵林, 郭帅, 谢卫平 2016 强激光与粒子束 28 045017]

    [33]

    Zhang S L, Zhang Z W, Sun Q Z, Liu W, Zhao X M, Zhang Z H, Wang G L, Jia Y S 2017 High Power Laser and Particle Beams 29 105002 (in Chinese)[张绍龙, 章征伟, 孙奇志, 刘伟, 赵小明, 张朝辉, 王贵林, 贾月松 2017 强激光与粒子束 29 105002]

    [34]

    Liao H D, Hu X J, Yang L B, Feng S P 1998 Chinese Journal of High Pressure Physics 12 174 (in Chinese)[廖海东, 胡熙静, 杨礼兵, 丰树平 1998 高压物理学报 12 174]

    [35]

    Steinberg D J, Cochran S G, Guinan M W 1980 J. Appl. Phys. 51 1498

    [36]

    Lee Y T, More R M 1984 Phys. Fluids 27 1273

    [37]

    Liu H F, Song H F, Zhang Q L, Zhang G M, Zhao Y H 2016 Matter and Radiation at Extremes 1 123

  • 引用本文:
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出版历程
  • 收稿日期:  2017-10-25
  • 修回日期:  2018-01-23
  • 刊出日期:  2019-04-20

FP-1装置铝套筒内爆动力学过程的一维磁流体力学模拟

  • 1. 北京应用物理与计算数学研究所, 北京 100088;
  • 2. 中国工程物理研究院流体物理研究所, 绵阳 621900;
  • 3. 中国工程物理研究院研究生院, 北京 100088
  • 通信作者: 张扬, zhang_yang@iapcm.ac.cn
    基金项目: 

    国家自然科学基金(批准号:11405012,11675025,11471048,U1630249)、科学挑战专题(批准号:JCKY2016212A502)和计算物理实验室基金资助的课题.

摘要: 作为一种重要的柱面会聚冲击和准等熵压缩加载源,磁驱动固体套筒内爆技术已广泛应用于高能量密度物理实验研究.针对FP-1装置驱动的固体套筒内爆动力学过程,建立了含强度的一维磁流体力学模型,并对典型实验进行了模拟.计算获得的套筒内爆速度同实验结果较为相符.模拟结果显示,该装置在40 kV充压条件下,可以将直径3 cm,厚0.5 mm的铝套筒加速至1.1 km/s,内壁速度超过1.5 km/s,同时保持大部分材料为固体状态.内爆套筒与相同材料靶筒碰撞产生的冲击压力约9 GPa.改变靶筒内部填充气体的压力,可以获得不同的靶筒运动速度、轨迹以及反弹半径,以满足不同类型实验的研究需要.

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