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Numerical Simulation Study on Influence of Structural Interspace on Anti-penetration Performance of GFRP and Steel Composite Armor System

机译：结构间隙对GFRP和钢复合铠装系统抗渗透性能影响的数值模拟研究

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In this study we investigated the influence of the structural interspace on the ballistic performance of GFRP and steel composite armor system,using finite element analysis by ANSYS/LS-DYNA to simulate,found out the failure modes of steel plates and GFRP plates,and analysed the anti-penetration mechanisms of the composite armor systems.The results indicated that impact by high velocity projectiles,the failure modes of GFRP plates change greatly by setting structural interspace,but less influence on the failure modes of steel plates.Impact by high velocity projectiles,structural interspace has little effect on the anti-penetration performance of steel-GFRP armor structure.Enough interspace can improve the anti-penetration performance of GFRP-steel armor structure,but the anti-penetration performance changes little with the increase of the interspace.

机译：在这项研究中，我们调查了结构间隙对GFRP和钢复合装甲系统的弹道性能的影响，使用ANSYS / LS-DYNA模拟的有限元分析，发现了钢板和GFRP板的失效模式，并分析复合铠装系统的防渗机构。结果表明，通过设定结构间隙，GFRP板的失效模式变化了大型GFRP平板的变化，但对高速射孔的影响较小。高速射孔影响较小，结构间隙对钢-GFRP铠装结构的防渗透性能影响不大。散道空间可以提高GFRP-钢制铠装结构的防渗透性能，但随着间隙的增加，防渗透性能几乎没有变化。

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《Annual International Conference on Materials Science and Engineering 》|2019年|524 p.|共6页
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Yuanhao Zhang; Zhongqing Cheng; Hailiang Hon;
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中图分类工程材料学 ;
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Numerical Simulation Study on Influence of Structural Interspace on Anti-penetration Performance of GFRP and Steel Composite Armor System

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