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Analysis of the stress wave and rarefaction wave produced by hypervelocity impact of sphere onto thin plate
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摘要:
Shock wave is emitted into the plate and sphere when a sphere hypervelocity impacts onto a thin plate. The fragmentation and phase change of the material caused by the propagation and unloading of shock wave could result in the formation of debris cloud eventually. Propagation models are deduced based on one-dimensional shock wave theory and the geometry of sphere, which uses elliptic equations (corre-sponding to ellipsoid equations in physical space) to describe the propagation of shock wave and the rarefaction wave. The"Effective thickness"is defined as the critical plate thickness that ensures the rarefaction wave overtake the shock wave at the back of the sphere. The"Effective thickness"is directly related to the form of the debris cloud. The relation of the"Effective thickness"and the"Optimum thickness"is also discussed. The impacts of Al spheres onto Al plates are simulated within SPH to verify the propagation models and associated theories. The results show that the wave fronts predicted by the propagation models are closer to the simulation result at higher impact velocity. The curvatures of the wave fronts decrease with the increase of impact velocities. The predicted"Effective thickness"is consistent with the simulation results. The analysis about the shock wave propagation and unloading in this paper can provide a new sight and inspiration for the quantitative study of hypervelocity impact and space debris protection.
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主办单位:
中国兵工学会
出版周期:
双月刊
ISSN:
2214-9147
CN:
10-1165/TJ
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出版地:
北京市海淀区车道沟10号(北京2431信箱)
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语种:
eng
出版文献量(篇)
1138
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0
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1442
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