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Research paper | Publishing Language: Chinese | Open Access

Microscopic model and failure mechanism of thermoplastic composite materials considering interface

Yongzhang HUOJinshui YANG( )Hongzhou LIZhao SUO
Qingdao Innovation and Development Base,Harbin Engineering University,Qingdao 266000,Shandong,China
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Abstract

Compared with traditional materials, carbon fiber reinforced thermoplastic composites (CFTRP) have higher toughness and deformation recovery ability, and are more conducive to recycling, and widely used in aerospace, automotive ship and other fields of the main bearing components, for its mechanical properties and failure mechanism have become a current hot direction. However, most of the researches have neglected the influence of the interface between fiber and matrix on the overall mechanical properties of composites. In this paper, taking the polyether ether ether ketone (PEEK) /T700 carbon fiber-reinforced composites as the object of research, the representative volume element (RVE) considering the interface and disregarding the interface is established by combining the method of experiments and finite element analysis, respectively. The influence of the interface on the mechanical properties and failure modes of the composites is systematically investigated by applying loads in various directions to them. The results indicate that the RVE considering interface behavior provides more accurate predictions of the composite strength and failure modes. Among these, the prediction accuracy for transverse tensile strength shows the most significant improvement, and the improvement for in-plane shear strength is more modest. The results and patterns can provide a reference for the structural design and performance evaluation of high-performance thermoplastic composites in practical engineering applications.

CLC number: TB332;V258 Document code: A

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Journal of Aeronautical Materials
Pages 171-179

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Cite this article:
HUO Y, YANG J, LI H, et al. Microscopic model and failure mechanism of thermoplastic composite materials considering interface. Journal of Aeronautical Materials, 2026, 46(7): 171-179. https://doi.org/10.11868/j.issn.1005-5053.2025.000115

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Received: 26 June 2025
Published: 15 July 2026
© Journal of Aeronautical Materials 2026.

This is an open access article under the CC BY-NC license (http://creativecommons.org/licenses/by-nc/4.0/).