Micromechanical analysis of fatigue and crack growth in carbon-fiber epoxy composites based on mechanical testing

A. Jelić, M. Sekulić, M. Stamenović, Vukašin Ugrinović, S. Putic
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Abstract

The paper presents static and dynamic tests of carbon/epoxy composite materials with fiber orientation at 0?/90? and ?45?. The main tensile properties were determined as a basis for subsequent dynamic tests, in which permanent dynamic strength, crack growth, and crack growth rate in the material due to the action of fatigue load were assessed. Comparisons were made regarding the structure of the tested specimens. Samples were obtained from prepregs with a specific density of 1600 kg/m3. The tests were performed at room temperature. Scanning electron microscopy (SEM) was used to analyze the damage in the material during these tests, the mechanisms of their further damage progression and, the impact on the growth and growth rate of the initial crack in the material. The analysis of numerical results and micromechanical analysis confirmed the dominant role of the reinforcing structural element in the material in all performed tests. The obtained results are of great importance in the application of composite materials of such structures under different operating conditions and load regimes.
基于力学试验的碳纤维环氧复合材料疲劳与裂纹扩展细观力学分析
本文介绍了纤维取向为0°/90°的碳/环氧复合材料的静态和动态试验。和45 ?。确定了主要拉伸性能,作为后续动态试验的基础,其中评估了材料在疲劳载荷作用下的永久动态强度、裂纹扩展和裂纹扩展速率。对试件的结构进行了比较。从比密度为1600 kg/m3的预浸料中获得样品。试验是在室温下进行的。利用扫描电子显微镜(SEM)分析了试验过程中材料的损伤情况、损伤进一步发展的机制以及对材料初始裂纹扩展和扩展速率的影响。数值结果分析和细观力学分析证实了在所有进行的试验中增强结构单元在材料中的主导作用。所得结果对此类结构复合材料在不同工况和载荷下的应用具有重要意义。
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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