热塑性碳/环氧复合材料制造缺陷的研究

T. Sebaey, N. O’Dowd
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摘要

热塑性复合材料被强烈推荐用于结构应用,不仅因为其纤维和基体材料的优越特性,而且因为其可循环利用的可能性,这是当今工程实践中的一个主要问题。热塑性塑料的制造技术不同于那些成熟的热固性复合材料。与热固性复合材料相比,本文通过评估纤维的分布、空隙含量和纤维的波纹度来解决热塑性复合材料的质量问题。IM7/PEEK和AS4/PA12是本研究中使用的两种热塑性复合材料体系,而IM7/8552是作为参考的热固性复合材料。使用光学显微镜和计算机断层扫描(CT)检查标本,并使用圆形统计对结果进行统计处理。分析表明,与IM7/8552复合材料相比,由ATP制备的IM7/PEEK和AS4/PA12复合材料具有更高的空隙体积。另一方面,ATP处理改善了纤维的排列,因为凝固过程发生在纤维处于张力状态时。显微镜研究还表明,与其他区域相比,ATP制造的复合材料在不同带层之间有一个纤维数量较少的区域。
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On the Manufacturing Defects of Thermoplastic Carbon/Epoxy Composites Manufactured by Automated Tape Placement
Thermoplastic composites are highly recommended for structural application, not only for their superior characteristics derived from the fiber and matrix materials but also for their recycling possibilities, which is a major issue in the today’s engineering practice. The manufacturing techniques for thermoplastics are different from those for the well-established thermoset composites. This paper addresses the quality of the thermoplastic composites by assessing the distribution of the fiber, the void contents and the waviness of the fibers, compared to the thermoset composites. IM7/PEEK and AS4/PA12 are the two thermoplastic composite systems used for this study, whereas, IM7/8552 is the thermoset composite used as reference. The specimens were examined using optical microscopy and computed tomography (CT) and the results were statistically treated using circular statistics. Compared to the IM7/8552 composite, the analysis reveals that the IM7/PEEK and AS4/PA12 composites, manufactured by ATP result in a higher volume of voids. On the other hand, ATP processing improves the alignment of the fibers, as the solidification process occurs while the fibers are in tension. The microscopy studies also show that the ATP manufactured composites have an area in between the different layers of tape with a low number of fibers, compared to the other areas.
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