Effects of Carbon Fiber Content on the Crystallization and Rheological Properties of Carbon Fiber-Reinforced Polyamide 6
Jianglin Liu, Lang He, Dongdong Yang, Jianguo Liang, Runtian Zhao, Zhihui Wang, Xiaodong Li, Zhanchun Chen

TL;DR
This paper studies how different amounts of carbon fiber affect the properties of a plastic composite used in aerospace and transportation.
Contribution
The study reveals how varying carbon fiber content influences crystallization, rheology, and mechanical properties of CF/PA6 composites.
Findings
Increasing carbon fiber content improves thermal stability but narrows the crystallization window.
At 40 wt.% carbon fiber, crystallinity is maximized at 55.16% and interfacial bonding is strongest.
Higher carbon fiber content leads to significant injection molding defects and matrix tearing at 50 wt.%.
Abstract
Carbon fiber (CF)-reinforced polyamide 6 (PA6) composites have an excellent performance, attributed to properties such as light quality, high strength, and vibration reduction, and they are widely used in fields such as aerospace and transportation. Four kinds of carbon fiber-reinforced polyamide 6 (CF/PA6) composite pellets with carbon fiber contents of 20, 30, 40, and 50 wt.% were prepared using twin screw extrusion. The results were characterized using a simultaneous thermal analyzer, capillary rheometer, electronic universal material testing machine, and scanning electron microscope (SEM); their crystallization, rheological behavior, mechanical properties, surface structure, etc., were studied. DSC results indicate that an increase in carbon fiber content enhances the thermal stability of CF/PA6 and narrows the crystallization window but has a minor effect on the molecular chain…
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Taxonomy
TopicsEnvironmental Science and Technology
