Sandwich panel subjected to blast wave impact and accelerated fragments

Eksploatacja i Niezawodność – Maintenance and Reliability Pub Date : 2024-02-11 DOI:10.17531/ein/183698

R. Studziński, Wojciech Sumelka, M. Malendowski, T. Gajewski, H. Al-Rifaie, P. Sielicki

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Abstract

The article presents sandwich panels subjected to blast wave impact and accelerated fragments. The research discusses results obtained from original experimental setups that fill a gap in the area of investigation of the mechanical response of sandwich panels used in civil engineering applications under accidental design situations such as blast wave impact and/or fragment penetration. In field experiments, a high-speed camera was used to record both the fragment trajectory and the deflection of the sandwich panel. The authors proposed the equivalent static load for both the global analysis of the sandwich panel and the calibration of the numerical model. In FE modelling, CONWEP algorithm was used to simulate blast wave impact, and ductile damage model material to allow perforation of the sandwich panel faces. The convergence of mesh size was analyzed. For the validated numerical model, an evaluation of the effect of the size of the fragment (diameter/mass) on the outlet velocity and the size of the inlet and outlet holes was carried out.

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夹芯板受到爆炸波冲击和加速碎片的影响

文章介绍了夹芯板受到冲击波和加速碎片的情况。研究讨论了原始实验装置获得的结果，这些结果填补了土木工程应用中夹芯板在爆炸波冲击和/或碎片穿透等意外设计情况下的机械响应研究领域的空白。在现场实验中，使用高速摄像机记录了碎片轨迹和夹芯板挠度。作者提出了用于夹芯板全局分析和数值模型校准的等效静载荷。在 FE 建模中，使用 CONWEP 算法模拟爆炸波冲击，并使用韧性损伤模型材料允许夹芯板表面穿孔。分析了网格大小的收敛性。对于已验证的数值模型，对碎片大小（直径/质量）对出口速度的影响以及入口和出口孔的大小进行了评估。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Eksploatacja i Niezawodność – Maintenance and Reliability

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