Numerical Calculation on Penetration of Ship Steel Plate by Fragment Simulated Projectile
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摘要: 为研究破片模拟弹侵彻钢板的过程,将模拟弹冲击钢装甲的侵彻过程分为初始接触、弹体侵入、剪切冲塞和穿甲破坏4个阶段进行理论分析。当靶板剩余厚度的剪切冲塞抗力小于延性扩孔抗力时,靶板的破坏模式完全转变为剪切冲塞;剪切塞块速度与剩余弹体速度相同时,推导出破片模拟弹侵彻钢靶板的能量转化及剩余速度公式,与实验及有限元分析结果吻合较好。研究结果对于破片侵彻钢靶板威力设计具有一定实用价值。Abstract: To investigate the penetration of steel plates by fragment simulated projectiles (FSP), we carried out a theoretical analysis of the steel plate’s penetration process, dividing it into 4 stages, sequentially of initial contact, penetration, plugging and perforation and successfully obtaining the formula that calculate the penetration remaining velocity and energy transformation. The calculation result is in good agreement with theresults from experiment and finite element observation. The formula is applicable to practical steel plate design.
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Key words:
- penetration /
- fragment simulated projectiles /
- shock /
- remaining velocity
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表 1 945钢的材料参数
Table 1. Material parameters of steel 945
E/GPa ρ/(kg·m-3) ν σs/MPa σb/MPa δs/% 205 7 770 0.32 ≥440 550–685 ≥20 
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表 2 理论值与实验值及有限元模拟值结果对比
Table 2. Comparison of theoretical values with experimental values and finite element simulation results
No. Experiment Simulation Theoretical εr1/% εr2/% h/mm v0/(m·s-1) vr/(m·s-1) vr/(m·s-1) u0/(m·s-1) vr/(m·s-1) 1 4 1 067.5 843.8 903.4 431.5 882.9 4.6 −2.32 2 4 1 238.8 1 006.1 1 082.4 531.3 1 029.8 2.4 −5.11 3 6 1 055.1 726.6 807.0 424.1 794.4 9.3 −1.59 4 6 1 235.7 812.1 1 011.6 529.5 939.6 15.7 −7.66 5 8 1 052.9 681.8 689.8 422.8 743.7 9.1 8.32 6 8 1 232.7 755.3 913.0 527.8 884.8 17.2 14.64
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