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高压物理学报 2014

碎片云问题的三维欧拉数值模拟

DOI: 10.11858/gywlxb.2014.03.006, PP. 300-306

王言金,刘军,冯其京,王政,郝鹏程

Keywords: 超高速碰撞,碎片云,弹塑性流体力学,欧拉方法,数值模拟

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Abstract:

针对材料超高速碰撞产生碎片云问题进行了多介质弹塑性流体力学欧拉方法数值模拟，介绍了所采用的数学模型、材料模型及相应的计算方法，模拟了铝球超高速碰撞铝板和斜铜柱高速撞击铝板形成碎片云的实验现象。进行了不同碰撞速度下模拟的碎片云形状和实验结果比较，利用经验公式对数值模拟的板靶开孔尺寸进行了分析。数值结果与实验结果、经验公式结果比较，说明多介质弹塑性流体力学欧拉方法能够较好地模拟超高速碰撞产生的碎片云问题，验证了数值方法的有效性。

References

[1]	Crews J L, Christiansen E L. The NASA JSC hypervelocity impact test facility(HIT-F), AIAA 92-1640 [R]. National Aeronautics and Space Administration, 1992.
[2]	Chhabildas L C, Reinhat W D, Thornhill T F. Hypervelocity impacts on aluminum from 6 to 11 km/s for hydrocode benchmarking, SAND 2003-1235 [R]. 2003.
[3]	Piekutowski A J. Debris clouds produced by the hypervelocity impact of nonspherical projectiles [J]. Int J Impact Eng, 2001, 26: 613-624.
[4]	Piekutowski A J. Holes produced in thin aluminum sheets by the hypervelocity impact of aluminum spheres [J]. Int J Impact Eng, 1999, 23(1): 711-722.
[5]	Piekutowski A J. Effects of scale on debris cloud properties [J]. Int J Impact Eng, 1997, 20(6/7/8/9/10): 639-650.
[6]	Bai J S, Zhong M, Tang M, et al. Numerical simulation investigation of the hypervelocity impacter launched by the gas gun [C]//Proceedings of Sixth National Conference on Space Debris. Chengdu, 2011: 434-444. (in Chinese)
[7]	柏劲松, 钟敏, 唐蜜, 等. 气炮发射获得超高速碰撞器的数值模拟研究 [C]//第六届全国空间碎片学术交流会论文集. 成都, 2011: 434-444.
[8]	Hiermaier S, Knke D, Stilp A J, et al. Computational simulation of the hypervelocity impact of Al-spheres on thin plates of different materials [J]. Int J Impact Eng, 1997, 20(1-5)363-374.
[9]	Jia G H, Huang H, Hu Z D. Simulation analyse of hypervelocity impact perforation [J]. Explosion and Shock Waves, 2005, 25(1): 47-52. (in Chinese)
[10]	贾光辉, 黄海, 胡震东. 超高速撞击数值仿真结果分析 [J]. 爆炸与冲击, 2005, 25(1): 47-52.
[11]	Zhang W, Pang B J, Jia B, et al. Numerical simulation of debris cloud produced by hypervelocity impact of projectile on bumper [J]. Chinese Journal of High Pressure Physics, 2004, 18(1): 47-53. (in Chinese)
[12]	张伟, 庞宝君, 贾斌, 等. 弹丸超高速撞击防护屏碎片云数值模拟 [J]. 高压物理学报, 2004, 18(1): 47-53.
[13]	Xu J Z, Tang W H, Xu Z H. Numerical analysis of the characteristics of debris clouds produced by hypervelocity impacts using SPH method [J]. Chinese Journal of High Pressure Physics, 2008, 22(4): 377-383. (in Chinese)
[14]	徐金中, 汤文辉, 徐志宏. 超高速碰撞碎片云特征的SPH方法数值分析 [J]. 高压物理学报, 2008, 22(4): 377-383.
[15]	Beissel S R, Gerlach C A, Hohnson G R. Hypervelocity impact computations with finite elements and meshfree particles [J]. Int J Impact Eng, 2006, 33: 80-90.
[16]	Blackburn D R, Vogler T J, Chhabildas L C. HVL_CTH: A simple tool that simulates the hyper-velocity launch of a flyer plate, SAND 2003-0596 [R]. 2003.
[17]	Liu J, He C J, Liang X H. An Eulerian adaptive mesh refinement method for three dimensional elastic-plastic hydrodynamic simulations [J]. Chinese Journal of High Pressure Physics, 2008, 22(1): 72-78. (in Chinese)
[18]	刘军, 何长江, 梁仙红. 三维弹塑性流体力学自适应欧拉方法研究 [J]. 高压物理学报, 2008, 22(1): 72-78.
[19]	He C J, Yu Z L, Feng Q J. 3D Eulerian numerical simulation method of high speed impact [J]. Explosion and Shock Waves, 1999, 19(3): 216-221. (in Chinese)
[20]	何长江, 于志鲁, 冯其京. 高速碰撞的三维欧拉数值模拟方法 [J]. 爆炸与冲击, 1999, 19(3): 216-221.
[21]	Liu X P, Xie C S, Qin M Z, et al. Numerical study of projectile penetration mechanism [J]. Chinese Journal of Theoretical and Applied Mechanics, 1990, 22(3): 318-327. (in Chinese)
[22]	刘小苹, 谢春生, 秦孟兆, 等．穿甲机理的数值研究 [J]．力学学报, 1990, 22(3): 318-327.
[23]	Piekutowski A J. Formation and description of debris cloud produced by hypervelocity impact, NASA 4707 [R]. 1996.
[24]	Maiden C J, Mcmillan A R. An investigation of the protection afforded a spacecraft by a shin shield [J]. AIAA J, 1964, 2(11): 1992-1998.

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