Effects of A, B, and S components on fiber length distribution, mechanical, and impact properties of carbon fiber/ABS composites produced by different processing methods

Carbon fiber/ABS composites with different acrylonitrile, butadiene, and styrene components were produced via extrusion/injection and long fiber thermoplastic (LFT)/injection molding processes, respectively. The effect of the components on fiber length distribution, tensile, flexural, impact, and dynamic mechanical properties of the composites was investigated. The properties of carbon fiber/ABS composites produced using 12 mm-long LFT pellets were markedly higher than those produced using extruded pellets made with 12 mm-long chopped carbon fibers. Uses of LFT pellets were preferable to enhancing the mechanical properties of carbon fiber/ABS composites. The tensile, flexural, and dynamic mechanical properties were increased in order of ABS750sw > ABS720 >= ABS780 > ABS740, whereas the impact strength was increased in order of ABS740 > ABS780 > ABS720 approximate to ABS750sw. Less carbon fiber damages and less carbon fiber length degradation upon LFT processing resulted in longer fiber length distribution and higher fiber aspect ratio in the composites with LFT pellets, indicating a beneficial reinforcing effect, which was responsible for the increased mechanical properties of ABS composites, particularly with ABS750sw. The results were agreed with each other, significantly depending on the A, B, and S components, being supported by fiber length distribution, fiber aspect ratio, and fracture surfaces.

Automated summary

Carbon fiber/ABS composites with different acrylonitrile, butadiene, and styrene components were produced using extrusion/injection and long fiber thermoplastic (LFT)/injection molding processes. The composites produced with LFT pellets showed higher mechanical properties compared to those produced with extruded pellets. The mechanical properties, such as tensile, flexural, and impact strength, were influenced by the components, with ABS750sw showing the most significant improvement. The reinforcing effect of longer fiber length distribution and higher fiber aspect ratio in the composites with LFT pellets contributed to the increased mechanical properties.