References
- Aliabdo, AA., Abd Elmoaty, AEM and Auda, EM., 2014. Re-use of waste marble dust in the production of cement and concrete. Construction and Building Materials 50, 28-41.
- André, A., 2012. Performance in Durability Terms of Concrete Incorporating Waste Coarse Aggregates from the Marble Industry. Instituto Superior Tecnico, Universidade Tecnica de Lisbona, Lisbon.
- André, A., Brito. De., J., Rosa, A., Pedro, D., 2014. Durability Performance of Concrete Incorporating Coarse Aggregates from Marble Industry Waste. Journal of Cleaner Production, 65, pp.389–396.
- Anwar, A., Mohd, S., Husain, A., and Ahmad, S.A.,2015. Replacement of Cement by Marble Dust and Ceramic Waste in Concrete for Sustainable Development. International Journal of Innovative Research in Science, Engineering, and Technology, 2, pp. 496–503.
- Aruntas, H. Y., Gürü, M., Dayi, M., and Tekin, I., 2010. Utilization of Waste Marble Dust as an Additive in Cement Production. Materials & Design, 31, pp. 4039–4042.
- Ashish, D.K., 2018. Concrete Made with waste Marble Powder and Supplementary Cementitious Material for Sustainable Development. Journal of Cleaner Production, 211, pp.716-729.
- Belaïd, F., 2022. How Does Concrete and Cement Industry Transformation Contribute to Mitigating Climate Change Challenges? Resources, Conservation & Recycling Advances, Volume 15, 200084. https://doi.org/10.1016/j.rcradv.2022.
- Binici, H., Kaplan, H., and Yilmaz, S., 2007. Influence of Marble and Limestone Dust as Additives on Some Mechanical Properties of Concrete. Scientific Research and Essays, 2, pp. 372–379.
- Binici, H., Shah, T., Aksogan, O., and Kaplan, H., 2008. Durability of Concrete Made with Granite and Marble as Recycle Aggregate. Journal of Materials Processing Technology, pp.299-308.
- Gaurav, S., Kishan, L.J., and Shruti, B., 2020. Mechanical and Durability Performance of Concrete Made with Waste Marble and Fly Ash. Jordan Journal of Civil Engineering, Vol. 14, No. 3.
- Ghazali, N., Muthusamy, K., Embong, R., Rahim, I.S. A., Muhamad Razali, N. F., Yahaya, F. M., Ariffin, N. F., and S. Wan Ahmad, S., 2021. Effect of Fly Ash as Partial Cement Replacement on Workability and Compressive Strength of Palm Oil Clinker Lightweight Concrete. Earth and Environmental Science,682.
- Hebhoub, H., Aoun, H., Belachia, M., Houari, H., and Ghorbel, E., 2011. Use of waste marble aggregates in concrete. Const. Build. Mater 25, 1167-1171
- Jang, J.G. and H.K. Lee., 2016. Microstructural densification and CO2 uptake promoted by the carbonation curing of belite-rich Portland cement. Cem. Concr. Res, 82, pp. 50–57.
- Kemer, H., Bouras, R., Mesboua, N., Sonebi, M., Kinnane, O.,2021. Shear-thickening behavior of sustainable cement paste - controlling physical parameters of new sources of supplementary cementitious materials, Construction and Building Materials, Volume 310.
- Kumar Mehta, P., Paulo, P., and Monteiro, J.M., 2014. Concrete: Microstructure, Properties, and Materials. Fourth ed.
- Martins, P., De Brito, J., Rosa, A., Pedro, D.,2014. Mechanical performance of concrete with the incorporation of coarse waste from the marble industry. Mater. Res, 17(5), pp. 1093-1101.
- Rashad, A.M., 2013. Metakaolin as Cementitious Material: History, Scours, Production, and Composition—A Comprehensive Overview. Construction and Building Materials, 41, 303-318.
- Sankh, A.C., Biradar, P.M., Naghathan, S.J., Ishwargol, M.B., 2014. Recent Trends in Replacement of Natural Sand with Different Alternatives. Journal of Mechanical and Civil Engineering, PP:59-66.
- Temesgen, F., Getasew, A., Getachew, K., Yeshi, A., Senthil, K.S., and Velmurugan, P.,2021. Experimental investigation of compressive strength for fly ash on high strength concrete C-55 grade. Materials Today: Proceedings, 46, pp. 7507–7517.
- Ullah, K., Qureshi, M. I., Ahmad, A. and Ullah, Z., 2022. Substitution potential of plastic fine aggregate in Concrete for sustainable production. Structures 35, pp. 622–637.
- Vardhan, K., Siddique, R., and Goyal, S.,2019. Influence of marble waste as partial replacement of fine aggregates on strength and drying shrinkage of concrete. Constr. Build. Mater. 228, 116730.
- Zaryab, A.R., Syed, N.R.S., Muhammad, J.M., Ashfaque, A.J., Manthar, A.K., Wan, I.J., 2022. Evaluation of combined utilization of marble dust powder and fly ash on the properties and sustainability of high-strength concrete. Environmental Science and Pollution Research, Volume 29, pp. 28005–28019.