Characterization of the mechanical energy absorption of honeycomb core sandwich panels filled with shear thickening fluid under low speed impact

IF 2.1 4区材料科学 Q2 MATERIALS SCIENCE, CHARACTERIZATION & TESTING Mechanics of Time-Dependent Materials Pub Date : 2024-02-14 DOI:10.1007/s11043-024-09674-8

Sajjad Astaraki, Ehsan Zamani, Mohammad Hossein Pol, Hosein Hasannezhad

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Abstract

The present research investigates the energy absorption of honeycomb core sandwich panels (HCSP) loaded with shear thickening fluid (STF) with different structural parameters at various impact velocities. The HCSP was aluminum, and the skin was constructed of different materials: (i) aluminum, (ii) glass-epoxy composite (GEC), and (iii) STF-impregnated fabric (STF/fabric) with a weight fraction of 15% silica particles. The experiment tests were carried out at 100 mm and 500 mm falling heights. Specific energy absorption HCSP/SF/S compared to HCSP/Al/S and HCSP/G/S increased by 6 47.49% and 23.04%, respectively. According to the results, the energy absorption of skin made of impregnated fabric is better than skin made of aluminum and composite. When the STF is under a high shear rate, the flow changes because of hydrocluster formation and changing the molecular structure from “order” to “disorder.” These changes increase the viscosity notably, causing the STF to become a solid material, resulting in energy absorption.

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填充剪切增稠流体的蜂窝芯夹芯板在低速冲击下的机械能吸收特性分析

本研究探讨了蜂窝芯夹层板（HCSP）在不同冲击速度下加载不同结构参数的剪切增稠流体（STF）的能量吸收问题。蜂窝芯夹层板为铝制，表皮由不同材料制成：(i) 铝；(ii) 玻璃-环氧树脂复合材料（GEC）；(iii) 含有 15% 重量分数二氧化硅颗粒的 STF 浸渍织物（STF/织物）。实验测试在 100 毫米和 500 毫米的下落高度下进行。与 HCSP/Al/S 和 HCSP/G/S 相比，HCSP/SF/S 的比能量吸收分别增加了 47.49% 和 23.04%。结果表明，浸渍织物表皮的能量吸收能力优于铝表皮和复合材料表皮。当 STF 处于高剪切速率下时，由于水团的形成和分子结构从 "有序 "变为 "无序"，流动发生了变化。这些变化明显增加了粘度，使 STF 成为固体材料，从而导致能量吸收。

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来源期刊

Mechanics of Time-Dependent Materials 工程技术-材料科学：表征与测试

CiteScore

4.90

自引率

8.00%

发文量

审稿时长

>12 weeks

期刊介绍： Mechanics of Time-Dependent Materials accepts contributions dealing with the time-dependent mechanical properties of solid polymers, metals, ceramics, concrete, wood, or their composites. It is recognized that certain materials can be in the melt state as function of temperature and/or pressure. Contributions concerned with fundamental issues relating to processing and melt-to-solid transition behaviour are welcome, as are contributions addressing time-dependent failure and fracture phenomena. Manuscripts addressing environmental issues will be considered if they relate to time-dependent mechanical properties. The journal promotes the transfer of knowledge between various disciplines that deal with the properties of time-dependent solid materials but approach these from different angles. Among these disciplines are: Mechanical Engineering, Aerospace Engineering, Chemical Engineering, Rheology, Materials Science, Polymer Physics, Design, and others.