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Original Article

Effects of Fiber Arrangements on Stress Distributions over the Transverse Cross Section of Unidirectionally Continuous Fiber-reinforced Composites
Soohoon Choi*, Wooseok Ji*^†
* School of Mechanical, Aerospace and Nuclear Engineering, Ulsan National Institute of Science and Technology
*† School of Mechanical, Aerospace and Nuclear Engineering, Ulsan National Institute of Science and Technology
단방향 연속 섬유 복합재 횡단면에서 섬유 배열에 따른 응력 분포 변화
최수훈* · 지우석*^†

References

1. Ng, W.H., Salvi, A.G., and Waas, A.M., “Characterization of the in-situ Non-linear Shear Response of Laminated Fiber-reinforced Composites,” Composites Science and Technology, Vol. 70, No. 7, 2010, pp. 1126-1134.
2. Yang, S., Tewari, A., and Gokhale, A.M., “Modeling of Non-uniform Spatial Arrangement of Fibers in a Ceramic Matrix Compo-site,” Acta Materialia, Vol. 45, No. 7, 1997, pp. 3059-3069.
3. Melro, A.R., Camanho, P.P., and Pinho, S.T., “Generation of Random Distribution of Fibres in Long-fibre Reinforced Composites”, Composite Science and Technology, Vol. 68, No. 9, 2008, pp. 2092-2102.
4. Yang, L., Yan, Y., Ran, Z., and Liu, Y., “A New Method for Generating Random Fibre Distributions for Fibre Reinforced Compo-sites”, Composite Science and Technology, Vol. 76, 2013, pp. 14-20.
5. Pan, Y., Iorga, L., and Pelegri, A.A., “Analysis of 3D Random Chopped Fiber Reinforced Composites Using FEM and Random Se-quential Adsorption,” Computational Material Science, Vol. 43, 2008, pp. 450-461.
6. Tian, W., Qi, L., Zhou, J., Liang, J., and Ma, Y., “Representative Volume Element for Composites Reinforced by Spatially Randomly Distributed Discontinuous Fibers and Its Applications,” Composite Structures, Vol. 131, 2015, pp. 366-373.
7. Vaughan, T.J., and McCarthy, C.T., “A Combined Experimental-numerical Approach for Generating Statistically Equivalent Fibre Distributions for High Strength Laminated Composite Materials”, Composites Science and Technology, Vol. 70, No. 2, 2010, pp. 291-297.
8. Ismail, Y., Yang, D., and Ye, J., “Discrete Element Method for Generating Random Fibre Distributions in Micromechanical Models of Fibre Reinforced Composite Laminates,” Composites Part B, Vol. 90, 2016, pp. 485-492.
9. Weng, J., Wen, W., Cui, H., and Chen, B., “Micromechanical Analysis of Composites with Fibers Distributed Randomly over the Transverse Cross-section,” Acta Astronautica, Vol. 147, 2018, pp. 133-140.
10. Choi, Y., and Woo, K., “Crimp Angle Dependence of Effective Properties for 3-D Weave Composite,” Composites Research, Vol. 29, No. 1, 2016, pp. 33-39.
11. Pyrz R., “Quantitative Description of the Microstructure of Composites. Part I: Morphology of Unidirectional Composite Systems,” Composite Science and Technology, Vol. 50, No. 2, 1994, pp. 197-208.
12. Trias, D., Costa, J., Mayugo, J.A., and Hurtado, J.E., “Random Models Versus Periodic Models for Fibre Reinforced Composites”, Computational Materials Science, Vol. 38, No. 2, 2006, pp. 316-324.
13. Bouaoune, L., Brunet, Y., El Moumen, A., Kanit, T., and Mazouz, H., “Random Versus Periodic Microstructures for Elasticity of Fibers Reinforced Composites,” Composites Part B, Vol. 103, 2016, pp. 68-73.
14. Choi, K.H, Hwang, Y.T., Kim, H.J., and Kim, H.S., “Development of Modeling Technique and Material Prediction Method Consid-ering Structural Characteristics of Wowen Composites,” Composites Research, Vol. 32, No. 5, 2019, pp. 206-210.
15. Yang, D.G., and Shin, E.S., “Micromechanical Computational Analysis for the Prediction of Failure Strength of Porous Compo-sites,” Composites Research, Vol. 29, No. 2, 2016, pp. 66-72.
16. Park, K.J., Shin, S., and Yun, G., “Development of the Big-size Statistical Volume Elements (BSVEs) Model for Fiber Reinforced Composite Based on the Mesh Cutting Technique,” Composites Research, Vol. 31, No. 4, 2018, pp. 251-259.
17. Park, S., Kim, D., Jeong, G., Lim, J., and Kim, S., “Prediction and Calibration of Transverse Mechanical Properties of Unidirectional Composites with Random Fiber Arrangement Considering Interphase Effect,” Composites Research, Vol. 32, No. 5, 2019, pp. 270-278.
18. Soden, P.D., Hinton, M.J. and Kaddour, A.S., “Lamina Properties, Lay-up Configurations and Loading Conditions for a Range of Fibre-reinforced Composite Laminates,” Composites Science and Technology, Vol. 58, 1998, pp. 1011-1022.
19. Fiedler, B., Hojo, M., Ochiai, S., Schulte, K., and Ando, M., “Failure Behaviour of an Epoxy Matrix under Different Kinds of Static Loading,” Composites Science and Technology, Vol. 61, 2001, pp. 1615-1624.
20. Melro, A.R., Camanho, P.P., Andrade Pires, F.R., and Pinho, S.T., “Micromechanical Analysis of Polymer Composites Reinforced by Unidirectional Fibres: Part II – Micromechanical Analyses,” International Journal of Solids and Structures, Vol. 50, 2013, pp. 1906-1915.
21. Nguyen, V.P., Lloberas-Valls, O., Stroeven, M., and Slury, L.J., “On the Existence of Representative Volumes for Softening Qua-si-brittle Materials: a Failure Zone Averaging Scheme,” Computer Methods in Applied Mechanics and Engineering, Vol. 199, 2010, pp. 3028-3038.
22. Kasayapanand, N., “Exact Solutions of Double Filled Hole of an Infinite Plate,” Journal of Mechanics of Materials and Structures, Vol. 3, No. 2, 2008, pp. 365-373.
23. Tabiai, I., Delorme, R., Therriault, D., and Levesque, M., “In situ Full Field Measurements during Inter-facial Debonding in Single Fiber Composite under Transverse Load,” Experimental Mechanics, Vol. 58, 2018, pp. 1451-1467.
24. Talreja, R., “Transverse Cracking and Stiffness Reduction in Composite Lamiantes,” Journal of Composite Materials, Vol. 19, No. 4, 1985, pp. 355-375.
25. Nairn, J.A., “Matrix Microcracking in Composites,” In the Book of Comprehensive Composite Materials, 2000, pp. 403-432.

This Article

2020; 33(1): 30-37

Published on Feb 28, 2020
10.7234/composres.2020.33.1.030
Received on Sep 27, 2019
Revised on Feb 28, 2020
Accepted on Feb 28, 2020

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Correspondence to

Wooseok Ji
*† School of Mechanical, Aerospace and Nuclear Engineering, Ulsan National Institute of Science and Technology
E-mail: wsji@unist.ac.kr