EFFECT OF MATRIX VISCOSITY ON STRESS PROFILE AROUND FIBER BREAK IN SINGLE FIBER MODEL COMPOSITE

机译：基质粘度对单纤维模型复合材料中纤维断裂周围应力剖面的影响

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Raman spectroscopy was used to study the stress relaxation in broken fibers in a unidirectional composite. A single-fiber model composite consisting of a high modulus PAN-based carbon fiber and an epoxy resin matrix was loaded incrementally until the fiber got broken. Then the stress profile in the broken fiber was monitored under constant overall strain for 1000 hours by determining fiber stress through the stress dependence of the 2700 cm~(-1) Raman band peak position. Three experiments were done at different overall strains. It was observed that the stress profile in each broken fiber changed only a little even after 1000 hours whereas matrix normal stress in the fiber direction relaxed to about a quarter of the initial value in about 200 hours. It is shown that this result does not support linear viscoelastic solutions based on perfect bonding at interface since the present experiments had interfacial debonding and matrix shear yielding around fiber breaks.

机译：拉曼光谱法用于研究单向复合材料中断裂纤维的应力松弛。逐步加载由高模量PAN基碳纤维和环氧树脂基质组成的单纤维模型复合材料，直到纤维断裂。然后通过2700 cm〜（-1）拉曼能带峰位置的应力相关性确定纤维应力，在恒定的总应变下监测断裂纤维中的应力分布，持续1000小时。在不同的总应变下进行了三个实验。观察到，即使在1000小时后，每条断裂的纤维中的应力分布也只有很小的变化，而在大约200小时内，纤维方向上的基体法向应力松弛到初始值的四分之一左右。结果表明，该结果不支持基于界面处的完美粘结的线性粘弹性解，因为本实验在纤维断裂附近具有界面脱粘和基体剪切屈服。

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《Progress in Mechanical Behaviour of Materials》|1999年|p.893-898|共6页
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T. Miyake; N. Ohno;
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EFFECT OF MATRIX VISCOSITY ON STRESS PROFILE AROUND FIBER BREAK IN SINGLE FIBER MODEL COMPOSITE

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