Size Effect and Fibre Arrangement on Meso-Mechanical Modelling of Woven Fibre Composites

Milindu Jayasekara, S. Herath, Nishangani Gowrikanthan, Chinthaka Mallikarachchi
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Abstract

The mechanical behaviour of woven fibre composites is of paramount importance owing to the rapid use of these engineered materials in various industries. A meso-mechanical representative unit cell (RUC) is generally used to represent the material for predicting mechanical behaviour in a virtual environment. However, the selection of the RUC size and fibre arrangement has not been studied in detail. Therefore, the objective of this study is to investigate the effect of size and the relative positioning of plies of an RUC of two-ply plain weave carbon fibre laminate on mechanical property predictions. First, a series of meso-mechanical models with different relative positionings of plies and sizes of RUCs were modelled. Then the constitutive relationship was developed for each RUC model. Finally, the calculated mechanical properties are compared with the experimental results to investigate the influence of size and relative positioning on the predictions. The results indicate that the effect of both the size and relative positioning of the RUC is minimal except for a few parameters. This leads to the conclusion that a minor effect on the mechanical properties of woven fibre composites exists especially from the size of RUC.
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机织纤维复合材料细观力学建模中的尺寸效应和纤维排列
由于这些工程材料在各种工业中的迅速使用,编织纤维复合材料的机械性能至关重要。细观力学代表单元(RUC)通常用于表示材料,以预测虚拟环境中的力学行为。然而,RUC尺寸和纤维排列的选择尚未得到详细的研究。因此,本研究的目的是研究两层平纹碳纤维层合板RUC的尺寸和相对定位对力学性能预测的影响。首先,建立了具有不同层数相对位置和尺寸的一系列细观力学模型;然后对每个RUC模型建立本构关系。最后,将计算得到的力学性能与实验结果进行对比,探讨尺寸和相对定位对预测结果的影响。结果表明,除了少数参数外,RUC的尺寸和相对位置的影响都很小。由此得出结论,特别是RUC的尺寸对编织纤维复合材料的力学性能有较小的影响。
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