含基体裂纹复合材料的模态转换

Zhen-yu Zhang, Chao Zhang, H. Ji, J. Qiu, Jinling Zhao
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引用次数: 0

摘要

本文对含基体裂纹的玻璃纤维增强聚合物中导波的模式转换行为进行了数值研究。对于单个裂纹,考虑了激励导波方式和裂纹位置两个不同的因素。结果表明,当裂纹位于靠近表面时,对称模态向反对称模态的转换起着重要作用。为了评估微损伤累积,定义了一个参数MCI (mode conversion Index)来量化模式转换行为。MCI与基体裂纹密度的关系表明,复合材料的模态转换行为对微损伤积累非常敏感,为复合材料的疲劳评价提供了可能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mode Conversion in Composite Material with Matrix Cracks
This paper presents a numerical study of mode conversion behavior of guided wave in glass fiber reinforced polymer with matrix cracks. For a single crack, two different factors including the guided wave mode of the excitation and the position of the crack are taken into consideration. Results show that mode conversion from symmetric mode to antisymmetric mode plays an important role when the crack locates near the surface. Aimed at evaluating micro-damage accumulation, the mode conversion behavior is quantified by defining a parameter MCI (Mode Conversion Index). The relation between MCI and the density of matrix cracks shows that the mode conversion behavior is very sensitive to the micro-damage accumulation, which has potential for composite fatigue evaluation.
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