带格状桁架核心的夹芯板的能量吸收和低速冲击响应

IF 3.5 3区材料科学 Q1 ENGINEERING, MECHANICAL

Journal of Sandwich Structures & Materials Pub Date : 2024-03-05 DOI:10.1177/10996362241238272

Mohammad Ghasemi, Mojtaba Mohammadpour, Fathollah Taheri‐Behrooz

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引用次数: 0

摘要

本研究探讨了具有两种不同结构的格子桁架芯材的复合夹层板的动态能量吸收性能。通过选择性激光烧结（SLS）增材制造方法，使用聚酰胺 12 设计并制造了两种芯材结构。通过改变体心立方（BCC）单元格的几何形状和层密度，创建了具有均匀和分级单元格拓扑结构的这些结构。这些芯材被用于制造复合夹层板，夹层板由 E 玻璃/环氧树脂面板制成。然后，使用实验和数值方法测试了它们在低速冲击时吸收能量的能力和准静态抗压强度。结果发现，在 12.4、16.5 和 17.9 J 的能量水平下，分级结构吸收的能量分别比均匀结构多 10%、5% 和 3%。研究还发现，两种结构都能吸收至少 90% 的冲击能量。在强度方面，均匀结构能够承受 1.15 倍的冲击载荷，表明其强度高于分级结构。均匀结构的抗压强度高出 8%。

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Energy absorption and low-velocity impact responses of the sandwich panels with lattice truss core

This study investigates the dynamic energy absorption performance of composite sandwich panels with two different configurations of lattice truss core. Two types of core structures were designed and created using polyamide 12 through the selective laser sintering (SLS) additive manufacturing method. These structures, with uniform and graded cell topologies, were created by changing the geometry and layer density of the body-centered cubic (BCC) unit cell. The cores were used to fabricate composite sandwich panels, which were made with E-glass/epoxy face sheets. Then, their ability to absorb energy during low-velocity impact and quasi-static compressive strength was tested using both experimental and numerical methods. It was found that the graded structure absorbed 10, 5, and 3% more energy than the uniform structure for the energy levels of 12.4, 16.5, and 17.9 J, respectively. It was also found that both structures could absorb at least 90% of the impact energy. In terms of strength, the uniform structure was able to tolerate 1.15 times larger impact loads, indicating its higher strength than the graded structure. The uniform structure had 8% more compressive strength.

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来源期刊

Journal of Sandwich Structures & Materials 工程技术-材料科学：表征与测试

CiteScore

9.60

自引率

2.60%

发文量

审稿时长

7 months

期刊介绍： The Journal of Sandwich Structures and Materials is an international peer reviewed journal that provides a means of communication to fellow engineers and scientists by providing an archival record of developments in the science, technology, and professional practices of sandwich construction throughout the world. This journal is a member of the Committee on Publication Ethics (COPE).