Strength and toughness: Multi‐particle synergism imparts rigid‐toughness balance to poly(ether‐ether‐ketone) composites

材料科学 复合材料 韧性 乙醚 断裂韧性 粒子(生态学) 有机化学 海洋学 地质学 化学
作者
Hongyan Zhang,Yingze Li,Naiyu Jiang,Nan Zhou,Xiaohu Zou,Dongxing Zhang
出处
期刊:Polymer Composites [Wiley]
卷期号:46 (14): 13416-13432 被引量:1
标识
DOI:10.1002/pc.29939
摘要

Abstract The primary challenges in utilizing thermoplastic poly(ether‐ether‐ketone) (PEEK) stem from its inherent lack of toughness in production settings. Traditional methods of enhancing toughness often compromise other essential properties of the material. This research focuses on optimizing the toughness of PEEK resin composites by integrating graphene oxide (GO) and silicone rubber (SR) particles into the PEEK matrix to formulate multiphase composites. A detailed investigation was carried out to assess the impact of these two distinct particles on the PEEK resin properties. In the evaluation of toughness across various composite materials, a notable enhancement was evident in the GO/PEEK, SR/PEEK, and GO/SR/PEEK ternary composites compared to the pristine PEEK. Furthermore, these composites maintained comparable stiffness and thermal resistance to standard PEEK. Tensile strength, fracture absorbed energy, and fracture toughness in GO/SR/PEEK ternary composites versus pure PEEK indicated increases of 18.38%, 174.53%, and 46.37%, respectively. Fracture analysis demonstrated that multi‐particle modification methods significantly complicated toughening mechanisms, including rubber voiding, matrix shear band formation, crack deflection, and matrix plastic deformation. The findings from this study propose a viable material design principle for engineering materials that effectively balance strength and toughness. Highlights The GO/SR/PEEK composites with a balance between strength and toughness. GO and SR exert a synergistic effect on the mechanical properties balance of PEEK. The plastic deformation is promoted as the main toughening mechanism. GO and SR enhanced PEEK crystallization, improving its mechanical properties.
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