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Multi-scale (Macro-Meso-Micro) Progressive Failure Simulation of the Carbon Fiber Braided Structure Under Quasi-static Mechanical Loading

Authors
Lee, Se-MinBaek, Jeong-HyeonYu, Myeong-HyeonJeon, Seong-WookChoi, Woo-SeokHeo, Sung-PilYang, Moon-HoPark, Jun-HongKim, Hak-Sung
Issue Date
Sep-2025
Publisher
한국정밀공학회
Keywords
Braided composite; Carbon fiber composites; Multi-scale simulation; Progressive failure; Stress amplification
Citation
International Journal of Precision Engineering and Manufacturing-Green Technology, v.12, no.5, pp 1501 - 1520
Pages
20
Indexed
SCIE
SCOPUS
KCI
Journal Title
International Journal of Precision Engineering and Manufacturing-Green Technology
Volume
12
Number
5
Start Page
1501
End Page
1520
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211680
DOI
10.1007/s40684-024-00674-0
ISSN
2288-6206
2198-0810
Abstract
The non-linear mechanical behavior of a braided composite was predicted using a progressive failure model based on multi-scale (macro-meso-micro) simulation. For the multi-scale simulation, the representative volume element (RVE) of micro-scale and meso-scale models were constructed, and their stress amplification factors were calculated and used in the macro-scale model to predict the progressive failure of fiber and matrix in each scale models during their iterative calculation. To verify the developed multi-scale progressive failure model, the load–displacement curve from the simulation of meso-scale braided composite plate as well as the macro-scale braided composite pipe structure were compared with those from the experiments. Also, the fractography of the braided composite structure were compared with those from the progressive failure simulations. Finally, a dynamic response test and simulation were performed and compared each other to confirm the predicted elastic modulus of the braided composite tubes with various braiding pattern and their cross-sections. The proposed multi-scale model successfully predicted not only the mechanical behavior of braided composites, but also progressive damage accumulation such as micro-scale and meso-scale fiber/matrix failure during the mechanical loading.
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