In the process of high speed hard target penetration of projectile and projectile explosive dispersion process missile control circuits will withstand the impact acceleration of tens of thou‐sands of g w hich needs buffer to protect control circuit modules .In order to design a better pro‐tection structure ,we put forward three aluminum shell thicknesses combined with different densi‐ties of aluminum foam for the aluminum shell filling structure .With explicit dynamic finite ele‐ment software LS‐DYNA ,the energy absorption effect of the structure was evaluated by 4 fac‐tors ,the load efficiency ,the specific energy absorption ,the shock isolation efficiency and the maxi‐mum acceleration response .The study showed that the filling structure buffer with thickness of 0.8 mm combined with density of 1.1 g/cm3 provided the highest energy absorbing effect in all the different combination .%在弹体高速侵彻硬目标和弹箭爆炸抛撒过程等环境中,弹载测控电路将承受数万 g的冲击加速度作用,因此需要对测控电路模块进行缓冲保护.为了设计较优的保护结构,提出了3种不同厚度的铝壳和不同密度泡沫铝的填充结构,利用LS‐DYNA有限元软件,从载荷效率、比吸能、隔冲效率以及最大加速度响应等4个评价指标对泡沫铝填充铝壳缓冲吸能效果进行评估.结果表明,厚度为0.8 mm、密度为1.1 g/cm3填充结构的缓冲吸能效果在不同组合中最好.
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