Local defect formation in short glass fibre reinforced polymers – micro-mechanical simulations and interrupted in-situ experiments

Julia Maurer, Denise Krölling, Dietmar Salaberger, Michael Jerabek, Johann Kastner, Zoltán Major
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引用次数: 0

Abstract

Discontinuous fibre reinforced polymers are widely used in various industry sectors and often replace conventional materials, due to lower production costs and their lightweight structure. For improvement of the component design, detailed knowledge of the failure mechanisms are necessary. To better understand the defect formation and thus the micro-mechanics, the strain behaviour in single fibres was analysed by micro-mechanical simulations of Representative Volume Elements (RVE). Therefore, selected fibres – similar orientated as in the real structure – were chosen for detailed analysis. Additionally, the defect formation next to selected fibres was investigated by X-ray computed tomography (CT). Furthermore, the critical fibre length was estimated based on the protruding fibre length of the fracture surface. Overall the simulation results correspond to theory. However, the detailed local inspection of the experimental volume data showed a rather strong influence of neighbouring fibres.
短玻璃纤维增强聚合物的局部缺陷形成——微力学模拟和原位中断实验
不连续纤维增强聚合物由于其较低的生产成本和较轻的结构,被广泛应用于各个工业部门,并经常取代传统材料。为了改进元件设计,详细了解失效机制是必要的。为了更好地理解缺陷的形成和微观力学,通过代表体积元(RVE)的微力学模拟分析了单纤维的应变行为。因此,选择与实际结构相似的定向纤维进行详细分析。此外,通过x射线计算机断层扫描(CT)研究了选定纤维旁边的缺陷形成。在此基础上,根据断裂表面的突出纤维长度估计出临界纤维长度。总体上,仿真结果与理论相符。然而,对实验体积数据的详细局部检查显示邻近纤维的影响相当大。
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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