Tran, T., Kaur, H. & Sukcharoen, T. Application of ultra high-performance mortar for producing high-performance pervious concrete with low carbon emissions and cost. J. Building Eng. 86, 108847 (2024).
Bahmani, H. & Mostofinejad, D. Chloride binding of monosulfate hydrate (AFm) and its effect on steel corrosion in simulated concrete pore solution. J. Building Eng. 50, 104118 (2022).
Shen, P., Lu, J. X., Zheng, H., Liu, S. & Poon, C. S. Conceptual design and performance evaluation of high strength pervious concrete. Construct Build. Mater. 269, 121342 (2021).
Xiong, J. B., Wang, S. N. & Li, P. P. Research on the durability of concrete in harbor engineering under the combined action of load and chloride salt. Concrete 4, 4–8 (2016).
He, Y. J., Zhang, X. S. & Chen, J. P. A review of research on durability of reinforced concrete materials and structures. Compr. Utilization Fly. Ash. 35, 83–87 (2021).
Mahdi, N., Arash, A., Maziar, F., Arman, A. & Aref, K. M. Pre-and post-heating bar-concrete bond behavior of CFRP-wrappedconcrete containing polymeric aggregates and steel fibers: Experimental and theoretical study. Engineering Structures. 321,118929 (2024).
Sun, B. B., Sun, Y. B. & Ye, G. A mix design methodology of slag and fly ash-based alkali-activated paste. Cem. Concr Compo. 126, 104368 (2021).
Zhang, J., Ma, Y. & Zheng, J. Chloride diffusion in alkali-activated fly ash/slag concretes: role of slag content, water/binder ratio, alkali content and sand-aggregate ratio. Construct Build. Mater. 261, 119940 (2020).
Ryan, C. & Garcia-Taengua, E. Fibre-Reinforced concrete is sustainable and Cost-Effective for Water-Retaining structures. Sustainability 13, 11479 (2021).
Arash, A. et al. The effect of sulfuric acid attack on mechanical properties of steel fiber-reinforced concrete containing waste nylon aggregates: experiments and RSM-based optimization. J. Building Eng. 64, 1–24 (2023).
Shaikh, F. U. A. & Supit, S. W. Chloride induced corrosion durability of high volume fly Ash concretes containing nano particles. Construct Build. Mater. 99, 208–225 (2015).
Esmaeili, J., Romouzi, V., Kasaei, J. & Andalibi, K. An investigation of durability and the mechanical properties of ultra-high performance concrete (UHPC) modified with economical graphene oxide nano-sheets. J. Build. Eng. 80, 107908 (2023).
Sun, Y., Yu, R. & Shui, Z. H. A Metakaolin-Based slurry additive for marine concrete: Preparation and properties evaluation. J. Test. Eval. 48, 1788–1798 (2020).
Mahdi, S. et al. Sulfuric acid resistance of concrete containing coal waste as a partial substitute for fine and coarse aggregates. Fuel 348, 1–10 (2023).
Yao, Y. et al. A double-blade mixer for concrete with improved mixing quality. Arab. J. Sci. Eng. 41, 4809–4816 (2016).
Zhang, H. S., Feng, P. & Ying, W. Q. Abrasive wear and optimal installation angle of concrete double–horizontal shaft mixer stirring blades. Appl. Sci. 2, 1067 (2020).
Lu, W. M. et al. Optimum analysis of inclined angle of mixing blades in planetary mixer based on discrete element method. Adv. Mech. Eng. 16, 1–12 (2024).
Sicakova, A. & Kim, J. Some aspects of the suitability of three-stage mixing for ready-mixed concrete. Građevinar 76, 709–718 (2024).
Yang, F., Yao, Y., Wei, J., Wang, X. X. & Feng, Z. Q. Estimating the effect of vibration mixing process on air pore size distributions in concrete using digital image analysis. Buildings 12, 1–17 (2022).
Zhao, W., Yang, J. & Zhao, W. Experimental study on the influence of mixing time on concrete performance under different mixing modes. Sci. Eng. Compo Mater. 28, 638–651 (2021).
Kelham, S. A. A water absorption test for concrete. Mag Concr Res. 40, 106–110 (1988).