Numerical and experimental approach for improving quasi-static and fatigue testing of a unidirectional CFRP composite laminate

Fabrizio Pagano , Pascal Paulmier , Myriam Kaminski , Alain Thionnet
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引用次数: 9

Abstract

Mechanical response of CFRP unidirectional prepreg was investigated under tensile quasi-static and fatigue loading. Firstly, the findings of an initial investigation on the effects of the end tabs and gripping condition are presented. A dialogue between numerical simulations and experimental tests led to avoid premature splitting failures in the clamps. Proper tensile failure is assessed in the gage length, at enhanced strength levels for the material considered. Consequently, the unidirectional material was successfully tested under tension-tension fatigue, at high load levels. Fatigue damage mechanisms arise at high stress amplitude, revealing that also a UD laminate can suffer from fatigue degradation along the fibres direction.

改进单向CFRP复合材料层合板准静态和疲劳测试的数值和实验方法
研究了CFRP单向预浸料在拉伸、准静态和疲劳载荷作用下的力学响应。首先,介绍了对末端卡片和夹持条件影响的初步研究结果。数值模拟和实验测试之间的对话避免了夹钳的过早分裂失效。适当的拉伸破坏是在考虑的材料的增强强度水平的规长进行评估。因此,单向材料在高负荷水平下成功地进行了拉伸-拉伸疲劳测试。疲劳损伤机制出现在高应力幅下,表明UD层合板也可能沿纤维方向发生疲劳退化。
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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