天然增强复合材料与混杂复合材料力学性能分析模型与数值模型的比较研究

Assia Chichane, Radouane Boujmal, A. El Barkany
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引用次数: 0

摘要

本研究旨在利用解析和数值模型预测有机/无机天然填料增强的聚丙烯基复合材料和杂化复合材料的力学行为。它还旨在证明杂化对材料整体刚度的影响。本文采用Voigt-Reuss模型、Halpin-Tsai方程、Hirsch模型和数值模拟方法对混合复合材料/含粘土和其他α - fa填料的复合材料的有效弹性模量进行了预测。所得结果与实验数据进行了比较。Hirsch的结果与alpha /PP复合材料的实验结果吻合得很好。而Halpin-Tsai模型的数值与alfa-clay/PP复合材料的实验结果吻合较好。数值计算结果与实验结果吻合较好,精度较高。总体结果很好地说明了杂化对最终杂化复合材料刚度的影响。
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A comparative study of analytical and numerical models of mechanical properties of composites and hybrid composites reinforced with natural reinforcements
This present research aims to predict the mechanical behavior of the composite and hybrid composites based on a polypropylene matrix (PP) reinforced by organic/inorganic naturally occurring fillers using analytical and numerical models. It also aims to demonstrate the effect of hybridization on the global stiffness of the material. In this study, Voigt-Reuss models, Halpin-Tsai equations, the Hirsch model, and numerical simulation are applied to predict the effective elastic moduli of hybrid composites/composites with clay and other alfa fillers. The results obtained are compared with experimental data. Hirsch’s results match well with the experimental results for the alfa/PP composite. However, the values of the Halpin-Tsai model showed a good agreement with the experimental results for the alfa-clay/PP hybrid composite. The numerical results show good accordance with the experimental results with higher accuracy. The overall results provided a good indication of the effects of hybridization on the stiffness of the final hybrid composites.
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