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Effects of Void Characteristics on the Mechanical Properties of Carbon Fiber Reinforced Polyetheretherketone Composites: Micromechanical Modeling and Analysis

Yong Zhang, Yibo Li, Xi Luan, Bin Meng, Jinsong Liu, Yan Lu

2025Polymers18 citationsDOIOpen Access PDF

Abstract

This study proposes a novel algorithm for generating representative volume elements which mitigate microstructural inhomogeneities in fiber-reinforced composites. The algorithm integrates void characteristics obtained from micro-computed tomography to more accurate microstructure models. Based on these models, the effects of void content, spatial distribution, and void diameter on the mechanical behavior of CF/PEEK composites are systematically evaluated using finite element analysis and experimental validation. The results reveal that void content significantly reduces transverse tensile strength and ductility, while void size further accelerates failure and enhances brittleness. In contrast, void distribution has minimal influence on the transverse mechanical response. These findings not only offer qualitative insights into void-induced damage mechanisms but also provide a theoretical basis for optimizing microstructures to enhance the mechanical performance of CF/PEEK and similar composite systems. Finally, the limitations of this study have been discussed, and directions for future research are proposed.

Topics & Concepts

Materials sciencePeekVoid (composites)Composite materialUltimate tensile strengthMicrostructureBrittlenessComposite numberTransverse planeFinite element methodDuctility (Earth science)Structural engineeringCreepPolymerEngineeringMechanical Behavior of CompositesFiber-reinforced polymer compositesSmart Materials for Construction
Effects of Void Characteristics on the Mechanical Properties of Carbon Fiber Reinforced Polyetheretherketone Composites: Micromechanical Modeling and Analysis | Litcius