Recent advances in hyper-velocity flyer launch experiments on PTS

Wang Gui-Lin; Guo Shuai; Shen Zhao-Wu; Zhang Zhao-Hui; Liu Cang-Li; Li Jun; Zhang Zheng-Wei; Jia Yue-Song; Zhao Xiao-Ming; Chen Hong; Feng Shu-Ping; Ji Ce; Xia Ming-He; Wei Bing; Tian Qing; Li Yong; Ding Yu; Guo Fan

doi:10.7498/aps.63.196201

Abstract

Magnetically driven loading technology is to load the large pulse current to the test area through the pulsed power, which forms a smooth magnetic pressure rising over time to achieve a quasi-isentropic compression of sample and hyper-velocity flyer launch. Based on the output characteristics and parameters of PTS accelerator, two types of hyper-velocity flyer launch experiments with different load configurations, such as the load, flyer plates size, current waveform and diagnostic systems etc, are designed and tested. LY12 aluminum flyer plates with dimensions of 10 mm0.725 mm was launched by single-sided stripline load configuration to 11.5 km/s while the magnetic drive load pressure is near 0.9 10^5 MPa. Simulation and experimental results agrees well with those of in the flyer launch process and the ultimate velocity. Further simulation shows that the launch velocity of aluminum flyer plates with dimensions of 8.5 mm1 mm is expected to exceed 15 km/s under the program of optimizing the structural parameters and regulation. The design and experiment technology of hyper-velocity flyer launch based on multi-branch pulsed power generator has been mastered during the designs and experiments.

Keywords:

Authors and contacts

1.
Department of Modern Mechanics, University of Science and Technology of China, Hefei 230027, China;
2.
Key laboratory of pulsed power, Institute of Fluid physics, CAEP, P. O. Box 919-108 Mianyang 621900, China
Funds: Project supported by the Science Foundation of Institute of Fluid physics of CAEP, China (Grant No. SFZ20130203).

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[22]	Dan J K, Huang X B, Zhang S Q, Zhou S T, Ren X D, Duan S C, Ouyang K, Cai H C, Wang M, Feng S P, Xie W P, Deng J J 2013 Proceedings of IEEE Pulsed Power conference San Francisco, USA, June 16-21, 2013 p9 67
[23]	Sharp G T 2003 Sandia National Laboratory Report No. SAND 2002-3477
[24]	Weng J D, Wang X, Tao T J, Liu C L, Tan H 2011 Rev. Sci. Instrum. 82 123114
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Cited By

[1]	Liu H F 2009 Physics. 38 920(in Chinese) [刘海风 2009 物理 38 920]
[2]	Yu Y Y, Tan Y, Dai C D, Li X M, Li Y H, Tan H 2014 Acta Phys. Sin. 63 026202(in Chinese) [俞宇颖, 谭叶, 戴诚达, 李雪梅, 李英华, 谭华 2014 物理学报 63 026202]
[3]	Tan Y, Yu Y Y, Dai C D, Yu J D, Wang Q S, Tan H 2013 Acta Phys. Sin. 62 036401(in Chinese) [谭叶, 俞宇颖, 戴诚达, 于继东, 王青松, 谭华 2013 物理学报 62 036401]
[4]	Zhao X H, Zhao X, Gao Y, Xi S W, Su W 2011 Acta Phys. Sin. 60 118204(in Chinese) [赵兴海, 赵翔, 高杨, 席仕伟, 苏伟 2011 物理学报 60 118204]
[5]	Luo B Q, Zhao J H, Sun C W, Mo J J, Huo J, Zhang X W, Wang G J, Tan F L 2012 Chinese Journal of High Pressure Physics 26 251(in Chinese) [罗斌强, 赵剑衡, 孙承纬, 莫建军, 贺佳, 张兴卫, 王桂吉, 谭福利 2012 高压物理学报 26 251]
[6]	Sun C W, Zhao J H, Wang G J, Zhang H P, Tan F L, Wang G H 2012 Advances in Mechanics 42 206
[7]	Hall C A, Asay J R, Knudson M D, Stygar W A, Spielman R B, Pointon T D, Reisman D B, Toor A, Cauble R C 2001 Rev. Sci. Instrum. 72 3587
[8]	Knudson M D, Desjarlais M P, Dolan D H 2008 Science 322 1822
[9]	Lemke R W, Knudson M D, Davis J P 2011 International Journal of Impact Engineering 38 480
[10]	Seidel D B, Langston W L, Coats R S, Knudson M D, Lemke R W, Davis J P, Pointon T D 2009 Proceedings of IEEE Pulsed Power conference Washington, USA, June 28-July 2, 2009 p1165
[11]	Ao T 2009 Sandia National Laboratory Report No. SAND 2009-0970
[12]	Davis J P, Deeney C, Knudson M D, Lemke R W, Pointon T D, Bliss D E 2005 Phy. Plasma. 12 056310
[13]	Ao T, Asay J R, Chantrenne S, Baer M R, Hall C A 2008 Rev. Sci. Instrum. 79 013903
[14]	Hereil P L, Lassalle F, Avrillaud G 2004 AIP Conf. Proc. Portland, USA, July 20-25, 2003 706 p1209
[15]	Wang G J, Luo B Q, Zhang X P, Zhao J H, Sun C W, Tan F L, Chong T, Mo J J, Wu G, Tao Y H 2013 Rev. Sci. Instrum. 84 015117
[16]	Wang G H, Wang G J, Kan M X, Zhang H P, Zhao J H, Tan F L 2013 Chinese Journal of Applied Mechanics 30 932(in Chinese) [王刚华, 王桂吉, 阚明先, 张红平, 赵剑衡, 谭福利 2013 应用力学学报 30 932]
[17]	Wang G L, Li J, Zhang Z H, Wang G H, Zhou R G, Ou Y K, Yang L, Wang X, Zhang Z W 2014 High Power Laser and Particle Beams 26 015101(in Chinese) [王贵林, 李军, 张朝辉, 王刚华, 周荣国, 欧阳凯, 杨亮, 王雄, 章征伟 2014 强激光与粒子束 26 015101]
[18]	Wang M, Guan Y C, Xia M H, Ji C, Liu Q N, Zou W K, Yang Z, Xie W P 2010 High Power Laser and Particle Beams 22 777(in Chinese) [王勐, 关永超, 宋盛义, 夏明鹤, 计策, 刘其能, 邹文康, 杨尊, 谢卫平 2010 强激光与粒子束 22 777]
[19]	Ding N, Zhang Y, Ning C, Shu X J, Xiao D L 2008 Acta Phys. Sci. 57 3027(in Chinese) [丁宁, 张扬, 宁成, 王勐, 束小建, 肖德龙 2008 物理学报 57 3027]
[20]	Zhao H L, Deng J J, Wang G H, Zou W K 2011 Chin. Phys. B 20 105201
[21]	Xia M H, Ji C, Wang Y J, Wang M, Li F, Feng S P, Xie W P 2012 High Power Laser and Particle Beams 24 2768(in Chinese) [夏明鹤, 计策, 王玉娟, 王勐, 李逢, 丰树平, 谢卫平 2012 强激光与粒子束 24 2768]
[22]	Dan J K, Huang X B, Zhang S Q, Zhou S T, Ren X D, Duan S C, Ouyang K, Cai H C, Wang M, Feng S P, Xie W P, Deng J J 2013 Proceedings of IEEE Pulsed Power conference San Francisco, USA, June 16-21, 2013 p9 67
[23]	Sharp G T 2003 Sandia National Laboratory Report No. SAND 2002-3477
[24]	Weng J D, Wang X, Tao T J, Liu C L, Tan H 2011 Rev. Sci. Instrum. 82 123114
[25]	Wei B, Gu Y C, Zhou R G, Yang L, Wang X 2007 High Voltage Engineering 33 188(in Chinese) [卫兵, 顾元朝, 周荣国, 杨亮, 王雄 2007 高电压技术 33 188]

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Vol. 63, Issue 19 - 2014-10-05

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