Relationship between the Initial Fracture Stress and Fatigue Limit—Simple Prediction Method of Tensile Fatigue Limit of Composite

复合材料期刊(英文) Pub Date : 2019-09-24 DOI:10.4236/ojcm.2019.94021

Y. Imai, K. Nishitani, Gabriel Y. Fortin, A. Ohtani, H. Hamada

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引用次数: 4

Abstract

This article presents an experimental study that clarifies the relationship between the initial fracture stress and fatigue limit of glass fiber reinforced unsaturated polyester resin specimens with a laminated structure taken from a pultruded square pipe. Quasi-static bending and tension tests are performed with acoustic emission (AE) measurements to identifying the occurrence of initial fracture during testing. AE and observation results have clarified the occurrence of initial fracture was detected by maximum acoustic energy values and corresponding fiber breakage in the unidirectional (UD) bundles. Moreover, the ratio of initial fracture stress to ultimate strength is 32% in bending and 26% in tension, when comparing stress and strains on the tension side of the UD layer. These values are in good agreement with each other and with the measured tensile fatigue limit when the cyclic stress is at 25% of the tensile strength. Initial fracture stress obtained by static tests is close values to the fatigue limit which will greatly contribute to the prediction of the fatigue limit.

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初始断裂应力与疲劳极限的关系——复合材料拉伸疲劳极限的简单预测方法

本文通过实验研究，阐明了拉挤方管层合结构玻璃纤维增强不饱和聚酯树脂试样的初始断裂应力与疲劳极限之间的关系。通过声发射(AE)测量进行准静态弯曲和拉伸测试，以确定测试过程中初始裂缝的发生。声发射和观测结果表明，通过最大声能值和单向束中相应的纤维断裂来检测初始断裂的发生。对比UD层受拉侧的应力和应变，其初始断裂应力与极限强度之比在弯曲时为32%，在受拉时为26%。当循环应力为拉伸强度的25%时，这些数值与实测的拉伸疲劳极限符合得很好。静态试验得到的初始断裂应力接近疲劳极限，这对疲劳极限的预测有很大的帮助。

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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复合材料期刊(英文)

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