PSI - Issue 71

Yash Rathore et al. / Procedia Structural Integrity 71 (2025) 401–408

408

Jayanti, D. S., Mirza, J., Jaya, R. P., Abu Bakar, B. H., Hassan, N. A., and Hainin, M. R. 2016. Chloride penetration of RHA concrete under marine environment. Proceedings of the Institution of Civil Engineers: Maritime Engineering, 169(2), 76 – 85. Kannan, V., and Ganesan, K. 2014. Chloride and chemical resistance of self-compacting concrete containing rice husk ash and metakaolin. Construction and Building Materials, 51, 225 – 234. Kavya, A., and Venkateshwara Rao, A. 2020. Experimental investigation on mechanical properties of concrete with M sand. Materials Today: Proceedings, 33, 663 – 667. Kioumarsi, M., and Plevris, V. 2024. Advanced Concrete and Construction Materials for Sustainable Structures. Sustainability, 16(4), 1427. Lacerda Gomes, C., Valle Salles, P., César da Silva Bezerra, A., de Souza Rodrigues, C., and Spitale Jacques Poggiali, F. 2023. Mechanical and durability properties of concrete produced with construction and demolition waste and rice husk ash. Construction and Building Materials, 406, 133471. Mansour, A. M., and Al Biajawi, M. I. 2022. The effect of the addition of metakaolin on the fresh and hardened properties of blended cement products: A review. Materials Today: Proceedings, 66, 2811 – 2817. Nadimalla, A., Masjuki, S. A., Saad, S. A., Woen, E. L., Ali, S. M., and Ulla, N. 2020. The Impact of Manufactured Sand (M-Sand) as Partially and Fully Replacement of Fine Aggregate in Concrete. Advances in Science, Technology and Engineering Systems Journal, 5(1), 302 – 306. Pillay, D. L., Olalusi, O. B., Kiliswa, M. W., Awoyera, P. O., Kolawole, J. T., and Babafemi, A. J. 2022. Engineering performance of metakaolin based concrete. Cleaner Engineering and Technology, 6, 100383. Rathore, Y., and Raheem, J. 2024. Synergistic Influence of Vindhyan Sandstone Manufactured Sand and Rice Husk Ash on Concrete Performance. National Academy Science Letters. https://doi.org/10.1007/s40009-024-01484-3 Rathore, Y., and Raheem, J. 2025a. Sustainable Concrete Advancements: Exploring Deccan Basalt Manufactured Sand as A River Sand Alternative. National Academy Science Letters. https://doi.org/10.1007/s40009-025-01659-6 Rathore, Y., and Raheem, J. 2025b. The Evolution, Characteristics, and Potential of Manufactured Sand in Concrete: A Short Review. National Academy Science Letters. https://doi.org/10.1007/s40009-025-01624-3 Shen, W., Liu, Y., Wang, Z., Cao, L., Wu, D., Wang, Y., and Ji, X. 2018. Influence of manufactured sand’s characteristics on its concrete performance. Construction and Building Materials, 172, 574 – 583. Shi, X., Zha, Q., Li, S., Cai, G., Wu, D., and Zhai, C. 2022. Experimental Study on the Mechanical Properties and Microstructure of Metakaolin-Based Geopolymer Modified Clay. Molecules, 27(15), 4805. Siddika, A., Mamun, Md. A. Al, Alyousef, R., and Mohammadhosseini, H. 2021. State-of-the-art-review on rice husk ash: A supplementary cementitious material in concrete. Journal of King Saud University - Engineering Sciences, 33(5), 294 – 307. Siddique, R., and Klaus, J. 2009. Influence of metakaolin on the properties of mortar and concrete: A review. Applied Clay Science, 43(3 – 4), 392 – 400. Vieira, A. P., Toledo Filho, R. D., Tavares, L. M., and Cordeiro, G. C. 2020. Effect of particle size, porous structure and content of rice husk ash on the hydration process and compressive strength evolution of concrete. Construction and Building Materials, 236, 117553.

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