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All issues Volume 354 (2026) EPJ Web Conf., 354 (2026) 02009 References
Open Access
Issue
EPJ Web Conf.
Volume 354, 2026
19th Global Congress on Manufacturing and Management (GCMM 2025)
Article Number 02009
Number of page(s) 20
Section Artificial Intelligence, Machine Learning, and Intelligent Decision Systems
DOI https://doi.org/10.1051/epjconf/202635402009
Published online 02 March 2026
  1. Anitha, J., Ravi Kumar, H., & Subramanya, K. G, Influence of air-classified and wet-classified manufactured sand on self-compacting concrete exposed to severe environmental conditions. Civil Engineering and Architecture, 13(4), 3207–3219. https://doi.org/10.13189/cea.2025.130426 (2025) [Google Scholar]
  2. Huamani, A. J. R., Santos, B. M. A., Palomino, N. R. M., & Fernandez, M. A. L, Evaluation of the impact of sugarcane bagasse fiber and corn stubble ash on the mechanical properties of lightweight concrete for conceptual floor slab design. Civil Engineering and Architecture, 13(4), 3248–3265. https://doi.org/10.13189/cea.2025.130429 (2025) [Google Scholar]
  3. Beskopylny, A. N., Stel'makh, S. A., Shcherban', E. M., Mailyan, L. R., Meskhi, B., Shilov, A. A., … & El'shaeva, D, Effect of walnut-shell additive on the structure and characteristics of concrete. Materials, 16(4), 1752 (2023) [Google Scholar]
  4. Adenaike, A. O., Mbadike, E. M., & Nwa-David, C. D, Optimization of Mechanical Properties of Concrete made with Bambara nut shell ash and Quarry dust using Artificial Neural Network. UNIZIK Journal of Engineering and Applied Sciences, 2(3), 458–473 (2023) [Google Scholar]
  5. Cheng, W., Liu, G., & Chen, L, Pet fiber reinforced wet-mix shotcrete with walnut shell as replaced aggregate. Applied Sciences, 7(4), 345 (2017) [Google Scholar]
  6. Alaneme, G. U., Mbadike, E. M., Iro, U. I., Udousoro, I. M., & Ifejimalu, W. C, Adaptive neuro-fuzzy inference system prediction model for the mechanical behaviour of rice husk ash and periwinkle shell concrete blend for sustainable construction. Asian Journal of Civil Engineering, 22(5), 959–974 (2021) [Google Scholar]
  7. Kong, J., Cong, G., Ni, S., Sun, J., Guo, C., Chen, M., & Quan, H, Recycling of waste oyster shell and recycled aggregate in the porous ecological concrete used for artificial reefs. Construction and Building Materials, 323, 126447 (2022) [Google Scholar]
  8. Luo, K., Zhang, M., Jiang, Q., Wang, S., & Zhuo, X, Evaluation of using oyster shell as a complete replacement for aggregate to make eco-friendly concrete. Journal of Building Engineering, 84, 108587 (2024) [Google Scholar]
  9. Kong, J., Ni, S., Guo, C., Chen, M., & Quan, H, Impacts from waste oyster shell on the durability and biological attachment of recycled aggregate porous concrete for artificial reef. Materials, 15(17), 6117 (2022) [Google Scholar]
  10. Eo, S. H., & Yi, S. T, Effect of oyster shell as an aggregate replacement on the characteristics of concrete. Magazine of Concrete Research, 67(15), 833–842 (2015) [Google Scholar]
  11. Rupasinghe, M., San Nicolas, R., Lanham, B. S., & Morris, R. L, Sustainable oyster shell incorporated artificial reef concrete for living shorelines. Construction and Building Materials, 410, 134217 (2024) [Google Scholar]
  12. Ruslan, H. N., Muthusamy, K., Mohsin, S. M. S., Jose, R., & Omar, R, Oyster shell waste as a concrete ingredient: A review. Materials Today: Proceedings, 48, 713–719. (2022) [Google Scholar]
  13. Bellei, P., Torres, I., Solstad, R., & Flores-Colen, I, Potential use of oyster shell waste in the composition of construction composites: A review. Buildings, 13(6), 1546 (2023) [Google Scholar]
  14. H. Silva, T., Mesquita-Guimaräes, J., Henriques, B., Silva, F. S., & Fredel, M. C, The potential use of oyster shell waste in new value-added by-product. Resources, 8(1), 13 (2019) [Google Scholar]
  15. Razali, N., Sani, N. A. A., Razali, N., & Jumadi, N, Properties of pervious concrete with recycled oyster shells as partial aggregates component. Politeknik & Kolej Komuniti Journal of Engineering and Technology, 6(1), 47–59 (2021) [Google Scholar]
  16. Yanting, M., Bo, D., Xiaotong, Y., Da, C., & Yingdi, L, Study on mechanical properties and durability of geopolymer concrete with oyster shell aggregate. Construction and Building Materials, 472, 140926 (2025) [Google Scholar]
  17. Uddin, M. J., Smith, K. J., & Hargis, C. W, Development of pervious oyster shell habitat (POSH) concrete for reef restoration and living shorelines. Construction and Building Materials, 295, 123685 (2021) [Google Scholar]
  18. Wei, Y. L., Kuo, P. J., Yin, Y. Z., Huang, Y. T., Chung, T. H., & Xie, X. Q, Co-sintering oyster shell with hazardous steel fly ash and harbor sediment into construction materials. Construction and Building Materials, 172, 224–232 (2018) [Google Scholar]
  19. Chakravarthy, P. K., Ilango, T., & Pugazhenthi, R, Mechanical properties of concrete with foundry sand andcoconut shell as partial replacement for coarse and fine aggregate. Materials Today: Proceedings, 52, 537–543 (2022) [Google Scholar]
  20. Chakravarthy, P. K., Janani, R., & RathanRaj, R, Comparative study on compressive strength of normal concrete and coconut shell concrete using steel fibre. ARPN Journal of Engineering and Applied Sciences, 11(17), 10596–10600 (2016) [Google Scholar]

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