A frequency spectral analysis of the fiber failure acoustic emission signal in a single fiber composite

A. Calabro, C. Esposito, A. Lizza, M. Giordano, S. Tedesco, A. D’Amore, L. Nicolais
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引用次数: 6

Abstract

A new acoustic emission failure mode analysis methodology for composite materials was developed. A single carbon fiber composite based on a polyester matrix has been used as a simple model. Fiber breakage during tensile loading tests was observed by using a polarized light microscope and simultaneously detected by a resonant acoustic probe. The resonant probe was used as a trigger for recording the fiber failure events. Single acoustic emission events from a wide band probe were recorded for fast Fourier transform analysis. The single fiber specimen, having an unique failure mode, presents advantages for standardization of AE techniques for quantitative analysis of failures in polymer composite materials. The same procedure can be exploited to investigate the other failure modes, namely fiber-matrix debonding and matrix cracking.
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单纤维复合材料中光纤失效声发射信号的频谱分析
提出了一种新的复合材料声发射失效模式分析方法。基于聚酯基体的单一碳纤维复合材料被用作一个简单的模型。利用偏振光显微镜观察纤维在拉伸加载过程中的断裂情况,同时用共振声探针检测纤维断裂情况。谐振探针被用作记录光纤失效事件的触发器。记录了宽带探头的单声发射事件,用于快速傅里叶变换分析。单纤维试样具有独特的失效模式,为定量分析聚合物复合材料失效的声发射技术标准化提供了有利条件。同样的方法也可以用于研究其他的破坏模式,即纤维-基体脱粘和基体开裂。
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