Experimental study on hypervelocity impact characteristics of density-grade thin-plate

Hou Ming-Qiang; Gong Zi-Zheng; Xu Kun-Bo; Zheng Jian-Dong; Cao Yan; Niu Jin-Chao

doi:10.7498/aps.63.024701

Abstract

Hypervelocity impact (HVI) characteristics of Ti6Al4V/Ly12 Al/polyamide fibre density-grade thin-plate are investigated experimentally in a velocity range of 4.0–6.5 km/s by using two-stage light gas gun. The perforation in target, damage to witness wall, and ballistic limit curve are obtained and compared with those in the case of aluminum thin-plate. The results show that the diameter of the perforation hole is larger than that of aluminum thin-plate, the crater size in witness plate is smaller, and the ballistic limit curve is 50% larger than the latter. The analysis of shock wave propagation and the calculation of energy dissipation property in the density-grade thin-plate show that higher peak shock pressure is produced in it, and it has longer pressure duration time. Thus, more dissipation energy is consumed than in the case of aluminum thin-plate. So the density-grade thin-plate has a very good performance in withstanding HVI, and is promising in engineering application, e.g. protecting spacecraft from HVI of micro-meteoroid and orbital debris.

Keywords:

Authors and contacts

1.
Science and Technology on Reliability and Environment Engineering Laboratory, Beijing Institute of Spacecraft Environment Engineering, China Academy of Space Technology, Beijing 100094, China;
2.
Institute of Telecommunication Satellite, China Academy of Space Technology, Beijing 100094, China
Funds: Project supported by the National Basic Research Program of China (Grant No. 2010CB731600) and the Specialized Research Program for the Protection against Space Debris of China (Grant Nos. KJSP06209, K0202210).

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[19]	Zheng W, Huang Y J, Pang B J, Shen J 2011 Mater. Sci. Eng. A 529 352
[20]	Huang H J, Shen Q, Luo G Q, Zhang L M 2007 Acta Phys. Sin. 56 1538 (in Chinese) [黄海军, 沈强, 罗国强, 张联盟 2007 物理学报 56 1538]
[21]	Shen Q, Zhang L M, Wang C B, Hua J S, Tan H, Jing F Q 2003 Acta Phys. Sin. 52 1663 (in Chinese) [沈强, 张联盟, 王传彬, 华劲松, 谭华, 经福谦 2003 物理学报 52 1663]
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[23]	Stilp A J, Weber K 1997 Int. J. Impact Eng. 20 765
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[25]	Hou M Q, Gong Z Z, Zheng J D, Xu K B, Cao Y, Niu J C 2013 the 6th European Conference on Space Debris ESA/ESOC, Darmstadt, Germany, April 22–25, 2013 p52
[26]	Huang X, Ling Z, Liu Z D, Zhang H S, Dai L H 2012 Int. J. Impact Eng. 42 1
[27]	Tamura H, Tanaka Y, Saito F, Kondo K 2011 Int. J. Impact Eng. 38 686
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[29]	Tang W H 2011 Shock Wave Physics (Beijing: Science Press) p190 (in Chinese) [汤文辉 2011冲击波物理(北京: 科学出版社) 第190页]

Cited By

[1]	Jing F Q 1990 Expl. Shock Waves 10 279 (in Chinese) [经福谦 1990 爆炸与冲击 10 279]
[2]	Li D H, Gong Z Z, Jing F Q 2001 Space Debr. Res. 4 50 (in Chinese) [李大红, 龚自正, 经福谦 2001 空间碎片研究 4 50]
[3]	Whipple F L 1947 Astron. J. 52 137
[4]	Cour-Palais B G, Crews J L 1990 Int. J. Impact Eng. 10 135
[5]	Christiansen E L, Kerr J H, Fuente H M, Schneider W C 1999 Int. J. Impact Eng. 23 125
[6]	Christiansen E L 1993 Int. J. Impact Eng. 14 145
[7]	Christiansen E L, Kerr J H 1993 Int. J. Impact Eng. 14 169
[8]	Ryan S, Schaefer F, Destefanis R, Lambert M 2008 Adv. Space Res. 41 1152.
[9]	Williamsen J E, Robinson J H, Nolen A M 1995 Int. J. Impact Eng. 17 217
[10]	Yasensky J, Christiansen E L 2008 Hypervelocity Impact Evaluation of Metal Foam Core Sandwich Structure (Houston: Johnson Space Center) NASA/TP-2008-214776
[11]	Jia B, Ma Z T, Pang B J 2009 Chin. J. High Press. Phys. 23 453 (in Chinese) [贾斌, 马志涛, 庞宝君 2009 高压物理学报 23 453]
[12]	Ryan S, Hedman T, Christiansen E L 2010 Acta Astronaut. 67 818
[13]	Ha Y, Liu Z Y, Guan G S, Pang B J 2012 Chin. J. High Press. Phys. 26 557 (in Chinese) [哈跃, 刘志勇, 管公顺, 庞宝君 2012 高压物理学报 26 557]
[14]	Song W D, Li J Q, Liu H Y 2011 Chin. J. High Press. Phys. 25 435 (in Chinese) [宋卫东, 栗建桥, 刘海燕 2011 高压物理学报 25 435]
[15]	Li J Z, Huang F L, Zhang Q M 2004 Chin. J. High Press. Phys. 18 163 (in Chinese) [李金柱, 黄风雷, 张庆明 2004 高压物理学报 18 163]
[16]	Rudolph M, Schäfer F, Destefanis R, Faraud M, Lambert M 2012 Acta Astronaut. 76 42
[17]	Baluch A H, Park Y, Kim C G 2013 Compos. Struct. 96 554
[18]	Francesconi A, Giacomuzzo C, Grande A M, Mudric T, Zaccariotto M, Etemadi E, Di Landro L, Galvanetto U 2013 Adv. Space Res. 51 930
[19]	Zheng W, Huang Y J, Pang B J, Shen J 2011 Mater. Sci. Eng. A 529 352
[20]	Huang H J, Shen Q, Luo G Q, Zhang L M 2007 Acta Phys. Sin. 56 1538 (in Chinese) [黄海军, 沈强, 罗国强, 张联盟 2007 物理学报 56 1538]
[21]	Shen Q, Zhang L M, Wang C B, Hua J S, Tan H, Jing F Q 2003 Acta Phys. Sin. 52 1663 (in Chinese) [沈强, 张联盟, 王传彬, 华劲松, 谭华, 经福谦 2003 物理学报 52 1663]
[22]	Riney T D 1970 In High-Velocity Impact Phenomena (edited by Kinslow) (New York: Academic Press) p166
[23]	Stilp A J, Weber K 1997 Int. J. Impact Eng. 20 765
[24]	Hou M Q, Gong Z Z, Yang J Y, Zheng J D, Tong J Y, Xiang S H 2009 Space Environment and Material Science Forum Beijing, 2009 p76 (in Chinese) [侯明强, 龚自正, 杨继运, 郑建东, 童靖宇, 向树红 2009 年空间环境与材料科学论坛, 北京, 2009 第76页]
[25]	Hou M Q, Gong Z Z, Zheng J D, Xu K B, Cao Y, Niu J C 2013 the 6th European Conference on Space Debris ESA/ESOC, Darmstadt, Germany, April 22–25, 2013 p52
[26]	Huang X, Ling Z, Liu Z D, Zhang H S, Dai L H 2012 Int. J. Impact Eng. 42 1
[27]	Tamura H, Tanaka Y, Saito F, Kondo K 2011 Int. J. Impact Eng. 38 686
[28]	Hill S A 2004 Int. J. Impact Eng. 30 303
[29]	Tang W H 2011 Shock Wave Physics (Beijing: Science Press) p190 (in Chinese) [汤文辉 2011冲击波物理(北京: 科学出版社) 第190页]

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Vol. 63, Issue 2 - 2014-01-20

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