Experiment on the impact response of aluminum alloy wood core sandwich composites

Shusen Li, Yan Zhang
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Abstract

In this work, a protective structure with 2A12T4 aluminum alloy as the panel material and plywood as the core layer was designed. Penetration experiments were performed by firing multiple projectiles from a light gas gun. The impact behavior, damage mode, absorbed energy, and residual strength of the interlayer after impact were studied. The dynamic response and the failure of the interlayer were analyzed. Disbonding, fiber fracture, buckling, shear, and core fracture between the metal layer and the composite layer of the front panel were observed. The impact resistance of the sandwich plate was also studied. Based on the results of the experiments and numerical simulations, failure determination of the plywood core layer was achieved using the Hashin criterion, and a finite element model was established using ABAQUS software. High-speed impact testing was performed with a Hopkinson pressure bar. The stress–strain relationship under a high dynamic strain rate is given here, and the energy absorption efficiency under loading in different directions was analyzed. Finite element analysis of the representative volume elements in the wood microstructure was also carried out. The results reported here can be used to guide optimal design of sandwich structures suitable for use under high-speed impact conditions.
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铝合金木芯夹芯复合材料的冲击响应实验
在这项工作中,设计了一种以 2A12T4 铝合金为面板材料、胶合板为芯层的防护结构。通过轻型气枪发射多个弹丸进行了穿透实验。研究了冲击行为、破坏模式、吸收能量和冲击后夹层的残余强度。分析了夹层的动态响应和破坏情况。在前面板的金属层和复合材料层之间观察到了脱粘现象、纤维断裂、屈曲、剪切和核心断裂。此外,还研究了夹层板的抗冲击性能。根据实验和数值模拟的结果,使用 Hashin 准则确定了胶合板芯层的失效,并使用 ABAQUS 软件建立了有限元模型。使用霍普金森压力棒进行了高速冲击试验。在此给出了高动态应变率下的应力-应变关系,并分析了不同方向加载下的能量吸收效率。此外,还对木材微观结构中的代表性体积元素进行了有限元分析。本文报告的结果可用于指导适合高速冲击条件下使用的夹层结构的优化设计。
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