Comprehensive evaluation of fatigue damage accumulation and failure of specimens with operational stress concentrators

Е. М. Strungar, О. А. Staroverov, Е. М. Lynegova
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Abstract

The paper presents the results of studying the mechanical behavior of laminated carbon-fiber-reinforced plastic under complex low-velocity impact three-point bending followed by cyclic tension. An integrated approach to studying damage accumulation patterns is implemented with the use of state-of-the-art testing and diagnostic equipment. The residual fatigue life of the composite is related to the intensity of preliminary impact bending. The fields of temperature distribution in the active zone of the samples during the tests are shown. Data on damage accumulation obtained by recording acoustic emission signals are presented. Relation of the change in the recorded acoustic response signals to infrared thermal scanning data has been detected, which is supported by the results of an experimental study. The use of additional equipment for infrared thermal scanning and recording of acoustic emission signals gives a complete picture of damage accumulation and failure in composite materials, with a good agreement with experimental data.
带操作应力集中器试件疲劳损伤累积与破坏的综合评价
本文研究了复合碳纤维增强塑料在复杂低速冲击三点弯曲后循环拉伸作用下的力学行为。一种综合的方法来研究损伤积累模式与使用最先进的测试和诊断设备。复合材料的残余疲劳寿命与预冲击弯曲强度有关。给出了试验过程中试样活性区的温度场分布。给出了通过记录声发射信号获得的损伤累积数据。实验结果证实了红外热扫描数据与声响应信号变化的关系。使用额外的红外热扫描设备和声发射信号记录,可以全面了解复合材料的损伤积累和失效情况,与实验数据吻合良好。
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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