Stiffness degradation and fatigue life prediction of adhesively-bonded joints for fiber-reinforced polymer composites

Ye Zhang; Anastasios P. Vassilopoulos; Thomas Keller

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Stiffness degradation and fatigue life prediction of adhesively-bonded joints for fiber-reinforced polymer composites

机译：纤维增强聚合物复合材料粘接接头的刚度下降和疲劳寿命预测

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摘要

Adhesively-bonded joints, including double- and stepped-lap joints (DLJs and SLJs), were experimentally investigated under cyclic tensile loading. The joints were composed of pultruded GFRP laminates and epoxy adhesive. A critical stiffness was found for DLJs and a critical elongation for SLJs at which failure occurs independently of load level. Based on measured uniform stiffness degradation during the fatigue life of DLJs, a linear model of stiffness degradation was established. For SLJs, after crack initiation, stiffness decreased at a higher rate during the initial and final stages of crack propagation. A non-linear sigmoid model was established. Results of both models compared well to experimental results and enabled F-N curves suitable for design to be established.

机译：在循环拉伸载荷下，对包括双搭接和阶梯搭接接头（DLJ和SLJ）在内的胶接接头进行了实验研究。接头由拉挤的GFRP层压板和环氧树脂胶组成。发现DLJ的临界刚度和SLJ的临界伸长率，在这种情况下，失效与负载水平无关。基于测得的DLJ疲劳寿命中的均匀刚度退化，建立了一个线性退化刚度模型。对于SLJ，在裂纹萌生后，刚度在裂纹扩展的初始和最终阶段以较高的速率降低。建立了非线性乙状结肠模型。两种模型的结果都与实验结果进行了很好的比较，并建立了适合设计的F-N曲线。

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来源
《International Journal of Fatigue》 |2008年第11期|1813-1820|共8页
作者
Ye Zhang; Anastasios P. Vassilopoulos; Thomas Keller;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
adhesive joints; fatigue; life prediction; S-N curves; stiffness degradation;

机译：粘合接头;疲劳;寿命预测;S-N曲线;刚度下降;

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Stiffness degradation and fatigue life prediction of adhesively-bonded joints for fiber-reinforced polymer composites

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