Preparation of continuous carbon fiber reinforced PA6 prepreg filaments with high fiber volume fraction

IF 4.2 Q2 ENGINEERING, MANUFACTURING Additive manufacturing letters Pub Date : 2024-10-02 DOI:10.1016/j.addlet.2024.100245
Ming Zhang , Zhonggang Sun , Yingbing Liang , Yanhua Guo , Guoqing Dai , Keyuan Wei , Ming Li , Xiping Li , Igor V. Alexandrov
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Abstract

High-performance continuous carbon fiber prepreg filaments have been a research hotspot in the field of additive manufacturing in recent years, and are considered to be an effective option for improving the mechanical strength of thermoplastic composite parts. However, the effect of fiber volume fraction on the microstructure and tensile properties of 3D printed prepreg filaments remains miss. Therefore, this study selected suitable impregnation processes and materials to prepare prepreg filaments with different fiber volume fraction and investigated their mechanical properties and microscopic morphologies. The results show that the increase of fiber volume fraction effectively promoted the interface bonding between fiber and resin, and increased capacity for load transfer. When the fiber volume fraction was 54.0 %, the tensile strength of the prepreg filaments and specimens reached 1977 MPa and 334 MPa, respectively. This study can provide a process optimization strategy for the preparation of more types of continuous fiber prepreg filaments with high fiber volume fraction, as well as a data reference for the preparation of high-performance 3D-printed thermoplastic composites.
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制备高纤维体积分数的连续碳纤维增强 PA6 预浸丝
高性能连续碳纤维预浸丝是近年来增材制造领域的研究热点,被认为是提高热塑性复合材料部件机械强度的有效选择。然而,纤维体积分数对三维打印预浸料长丝的微观结构和拉伸性能的影响仍然是个未知数。因此,本研究选择了合适的浸渍工艺和材料来制备不同纤维体积分数的预浸丝,并研究了它们的力学性能和微观形态。结果表明,纤维体积分数的增加能有效促进纤维与树脂之间的界面粘合,提高载荷传递能力。当纤维体积分数为 54.0 % 时,预浸丝和试样的拉伸强度分别达到 1977 兆帕和 334 兆帕。该研究为制备更多类型的高纤维体积分数连续纤维预浸长丝提供了工艺优化策略,也为制备高性能三维打印热塑性复合材料提供了数据参考。
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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来源期刊
Additive manufacturing letters
Additive manufacturing letters Materials Science (General), Industrial and Manufacturing Engineering, Mechanics of Materials
CiteScore
3.70
自引率
0.00%
发文量
0
审稿时长
37 days
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