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Original Article

Quantum Annealing-Based Stacking Sequence Optimization and Impact Performance Evaluation of Natural Hybrid Composites
S. Cho^*, Cheol Min Shin^**, Hyun Woo Kim^**, Sang Deok Kim^**, Chung Woo Park^**, Seong S. Cheon^*†
* Department of Mechanical Engineering, Graduated School, Kongju National University
** Kwangsung Corporation LTD
양자 어닐링 기반 적층 순서 최적화 및 천연 하이브리드 복합재의 충격 성능 평가
조성욱^* · 신철민^**· 김현우^** · 김상덕^** · 박충우^** · 전성식^*†
This article is an open access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

References

1. Ahmad, F., Choi, H.S., and Park, M.K., “A review: Natural fiber composites selection in view of mechanical, light weight, and economic properties,” Macromolecular Materials and Engineering, Vol. 300, No. 1, 2015, pp. 10–24.
2. Oh, E., Zuniga, M.M.G., and Suhr, J., “Trends and Perspective for Eco-friendly Composites for Next-generation Automobiles,” Composites Research, Vol. 37, No. 2, 2024, pp. 115–125.
3. Lee, D.W., Li, M., and Song, J.I., “Study on the Improvement of Flame Retardancy of Bamboo Fiber Using Eco-Friendly Liquid Flame Retardant,” Composites Research, Vol. 35, No. 6, 2022, pp. 456–462.
4. Venkatarajan, S., and Athijayamani, A., “An overview on natural cellulose fiber reinforced polymer composites,” Mater Today Proc., Vol. 37, No. 2, 2020, pp. 3620–3624.
5. Nurihan, O., Hisham, M.R.M., Rasid, Z.A., and Hassan, M.Z., “The elastic properties of unidirectional bamboo fibre reinforced epoxy composites,” Journal of Recent Technology and Engineering, Vol. 8, No. 3, 2019, pp. 7187–7193.
6. Shin, H., Lee, J., Moon, S., and Lee, J., :Structural Test Analysis Study for Manufacturing of Flax Fiber Composite Blades for 30kW Wind Turbines,” Composites Research, Vol. 36, No. 1, 2023, pp. 32–36.
7. Azim, A.Y.M.A., Alimuzzaman, S., and Sarker, F., “Optimizing the Fabric Architecture and Effect of I-Radiation on the Mechanical Properties of Jute Fiber Reinforced Polyester Composites,” ACS Omega, Vol. 7, No. 12, 2022, pp. 10127–10136.
8. Gnaba, I., Wang, P., Soulat, D., Omrani, F., Ferreira, M., and Vroman, P., “Investigation about the effect of manufacturing parameters on the mechanical behaviour of natural fibre nonwovens reinforced thermoplastic composites,” Materials (Basel), Vol. 12, No. 16, 2019, 2560.
9. Ghani, U.M., Siddique, A., Abraha, G.K., Yao, L., Li, W., Khan, M.Q., and Kim, I.S., “Performance Evaluation of Jute/Glass-Fiber-Reinforced Different Layering Configurations,” Materials (Basel), Vol. 15, No. 3–4, 2022, 1055.
10. Oliveira, M., Neves, V., and Banea, M.D., “Mechanical and Thermal Characterization of Bamboo and Interlaminar Hybrid Bamboo/Synthetic Fibre-Reinforced Epoxy Composites,” Materials (Basel), Vol. 17, No. 8, 2024, 1777.
11. Yang, K., Wu, S., Guan, J., Shao, Z., and Ritchie, R.O., “Enhancing the Mechanical Toughness of Epoxy-Resin Composites Using Natural Silk Reinforcements,” Scientific Reports, Vol. 7, No. 1, 2017, 11939.
12. Singh, Y., Singh, J., Sharma, S., Lam, T.D., and Nguyen, D.N., “Fabrication and characterization of coir/carbon-fiber reinforced epoxy based hybrid composite for helmet shells and sports-good applications: influence of fiber surface modifications on the mechanical, thermal and morphological properties,” Journal of Materials Research and Technology, Vol. 9, No. 6, 2020, pp. 15593–15603.
13. Zhao, R.-X., Qahan: A Quantum Annealing Hard Attention Network, 2024.
14. Adachi, S.H., and Henderson, M.P., “Application of Quantum Annealing to Training of Deep Neural Networks,” Proc Sci. 2015, 30-July-20(Cd):1–18.
15. Boyda, E., Basu, S., Ganguly, S., Michaelis, A., Mukhopadhyay, S., and Nemani, R.R., “Deploying a quantum annealing processor to detect tree cover in aerial imagery of California,” PLoS One, Vol. 12, No. 2, 2017, pp. 1–22.
16. López-Alba, E., Schmeer, S., and Díaz, F., “Energy absorption capacity in natural fiber reinforcement composites structures,” Materials (Basel), Vol. 11, No. 3, 2018, 418.
17. Saleem, A., Medina, L., Skrifvars, M., and Berglin, L., “Hybrid Polymer Composites of Bio-Based Bast Fibers with Glass, Carbon and Basalt Fibers for Automotive Applications—A Review,” Molecules, Vol. 25, No. 21, 2020.
18. Prabhudass, J.M., Palanikumar, K., Natarajan E., and Markandan, K., Enhanced Thermal Stability, Mechanical Properties and Structural Integrity of MWCNT Filled Bamboo/Kenaf Hybrid Polymer Nanocomposites,” Materials (Basel), Vol. 15, No. 2, 2022, 506.
19. Wang, X., Wang, L., Ji, W., Hao, Q., Zhang, G., and Meng, Q., “Characterization of KH-560-modified jute fabric/epoxy laminated composites: Surface structure, and thermal and mechanical properties,” Polymers (Basel), Vol. 11, No. 5, 2019, 769.
20. Alajmi, A.E., Alotaibi, J.G., Yousif, B.F., andd Nirmal, U., “Tribological studies of bamboo fibre reinforced epoxy composites using a bod technique,” Polymers (Basel), Vol. 13, No. 15, 2021, 2444.
21. Gargol, M., Klepka, T., Klapiszewski Ł., and Podkościelna, B., “Synthesis and thermo-mechanical study of epoxy resin-based composites with waste fibers of hemp as an eco-friendly filler,” Polymers (Basel), Vol. 13, No. 4, 2021, 503.
22. Dal Pont, B., Gigante, V., Panariello, L., Canesi, I., Aliotta, L., and Lazzeri, A., “Investigation of Novel Flax Fiber/Epoxy Composites with Increased Biobased Content,” Polymers (Basel), Vol. 15, No. 19, 2023, 4030.
23. Thomason, J.L., “Why are natural fibres failing to deliver on composite performance?,” 17th Int Conf Compos Mater. 2009.
24. Mariselvam, V., and Logesh, M., “Analytical analysis on material properties of Kenaf fiber composite,” International Journal of Applied Engineering Research, Vol. 10, No. 50, 2015, 617–620.
25. Hexcel Composites. Product data HexPly 8552. Hexcel. 2000, Vol. 1, No. 1, 1–6.
26. Anastasiou, D.E., “The exponential model versus a modified Chamis model and applications to sustainable particulate composites,” Journal of Applied Polymer Science, Vol. 140, No. 27, 2023, e54014.
27. Marshall, I.H., “Axiomatic Design and Fabrication of Composite Structures: Applications in Robots, Machine Tools, and Automobiles (Oxford Series on Advanced Manufacturing),” Ind. Robot An Int. J., Vol. 33, No. 2, 2006.
28. Hauke, P., Katzgraber, H.G., Lechner, W., Nishimori, H., and Oliver, W.D., “Perspectives of quantum annealing: Methods and implementations,” Reports on Progress in Physics, Vol. 83, 2020, 054401.
29. Albash, T., and Lidar, D.A., “Adiabatic quantum computation,” Reviews of Modern Physics, 2018, Vol. 90, No. 1, 15002.
30. Seifoori, S., Parrany, A.M., and Mirzarahmani, S., “Impact damage detection in CFRP and GFRP curved composite laminates subjected to low-velocity impacts,” Composite Structures, 2021, Vol. 261, 2020, 113278.
31. Zhu, X., Xiong, C., Yin, J., Zhou, H., Deng, H., and Zou, Y., “Bending responses of CFRP thin-walled tubes with different sectional shapes : Experimental, analytical and numerical investigation,” Composite Structures, Vol. 304, No. 1, 2023, 116374.
32. D-Wave Ocean Documentation, https://docs.dwavequantum. com/en/latest/index.html, 2025.
33. Astm-D6110-10. Standard Test Method for Determining the Charpy Impact Resistance of Notched Specimens of Plastics. Astm. 2010, 17.

This Article

2025; 38(6): 649-656

Published on Dec 31, 2025
10.7234/composres.2025.38.6.649
Received on Aug 6, 2025
Revised on Oct 7, 2025
Accepted on Nov 11, 2025

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Correspondence to

Seong S. Cheon
Department of Mechanical Engineering, Graduated School, Kongju National University
E-mail: sscheon@kongju.ac.kr