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CHOPDA, S.M. – CHATTANI, B.M.: Mechanical Properties of Pervious Concrete. International J. Technology, 2015, 5(2), pp.113-117.Search in Google Scholar
MA, Y. – YOU, Q. – LI, J. – LU, C. –YIN, J. – LI, H. – MENG, W. – LIU, Z. – WANG, Y. – GAO, X. – CHEN, T.: Study on the use of CO2 to strengthen recycled aggregates and pervious concrete. Construction and Building Materials, 2024 Mar 8; 418:135372.Search in Google Scholar
SIDHU, A. S., – SIDDIQUE, R.: Review on effect of curing methods on high strength concrete. Construction and Building Materials, 2024 Aug 9; 438:136858.Search in Google Scholar
SONG, W. – ZHANG, M. – WU, H.: Gray correlation analysis between mechanical performance and pore characteristics of permeable concrete. Journal of Building Engineering, 2024 Jun 1; 86:108793.Search in Google Scholar
BASHANDY, A. A.: Behavior and Durability Evaluation of Recycled Aggregate Pervious Concrete. Acta Technica Napocensis: Civil Engineering & Architecture, 2018 Jan 1; 61(1).Search in Google Scholar
USMAN, M. – FAROOQ, S. H. – UMAIR, M. –HANIF, A.: Axial compressive behavior of confined steel fiber reinforced high strength concrete. Construction and Building Materials, 2020 Jan 10; 230:117043.Search in Google Scholar
XU, L. – WU, F. – CHI, Y. – CHENG, P. – ZENG, Y. –CHEN, Q.: Effects of coarse aggregate and steel fibre contents on mechanical properties of high performance concrete. Construction and Building Materials. 2019 May 10; 206:97-110.Search in Google Scholar
ABBASS, W. – KHAN, M. I. – MOURAD, S.: Evaluation of mechanical properties of steel fiber reinforced concrete with different strengths of concrete. Construction and building materials, 2018 Apr 20; 168:556-69.Search in Google Scholar
GANDEL, R. – JERABEK, J. – MARCALIKOVA, Z.: Reinforced Concrete Beams Without Shear Reinforcement Using Fiber Reinforced Concrete and Alkali-Activated Material. Civil and Environmental Engineering, 2023 Jun; 19(1):348-56.Search in Google Scholar
HAMZAH, N. – MOHD SAMAN, H. – BAGHBAN, M.H. – MOHD SAM, A.R. – FARIDMEHR, I. – MUHD SIDEK, M.N. – BENJEDDOU, O. – HUSEIEN, G.F.: A review on the use of self-curing agents and its mechanism in high-performance cementitious materials. Buildings, 2022 Feb 1; 12(2):152.Search in Google Scholar
KAMAL, M. M. – SAFAN, M. A. – BASHANDY, A. A. – KHALIL, A. M.: Experimental investigation on the behavior of normal strength and high strength self-curing self-compacting concrete. Journal of Building Engineering, 2018 Mar 1; 16:79-93.Search in Google Scholar
RODRÍGUEZ, C. – PARRA, C. – CASADO, G. – MIÑANO, I. – ALBALADEJO, F. – BENITO, F. – SÁNCHEZ, I.: The incorporation of construction and demolition wastes as recycled mixed aggregates in non-structural concrete precast pieces. Journal of Cleaner Production, 2016 Jul 20; 127:152-61.Search in Google Scholar
NASSER, A. A.: Optimization of Retrofitting Schemes of Clay Brick Masonry with Openings. International Journal of Multidisciplinary and Current Research, 2013 Nov: 180-7.Search in Google Scholar
ESKANDARI-NADDAF, H. – AZIMI-POUR, M.: Performance evaluation of dry-pressed concrete curbs with variable cement grades by using Taguchi method. Ain Shams Engineering Journal, 2018 Dec 1; 9(4):1357-64.Search in Google Scholar
NASSER, A. A.: Effect of plastering on clay brick masonry behavior using Taguchi method. Int J Multidiscip Curr Res. 2013 Nov; 1:174-9.Search in Google Scholar
BASHANDY, A. A. – SAFAAN, M. A. – ELLYIEN, M. M.: Feasibility of using recycled-aggregates in self-curing concrete. In The 9th Alexandria International Conference on Structural and Geotechnical Engineering (Alexandria 2016), Faculty of Engineering, Alexandria University, Alexandria, Egypt.Search in Google Scholar
HOLSCHEMACHER, K. – MUELLER, T. – RIBAKOV, Y.: Effect of steel fibres on mechanical properties of high-strength concrete. Materials & Design (1980-2015), 31(5), 2604-2615.Search in Google Scholar
CHAITANYA, M. – RAMAKRISHNA, G.: Enhancing the mechanical properties of pervious recycled aggregate concrete using silicafumes. Materials Today: Proceedings, 2021 Jan 1; 46:634-7.Search in Google Scholar
ZAETANG, Y. – SATA, V. – WONGSA, A. – CHINDAPRASIRT, P.: Properties of pervious concrete containing recycled concrete block aggregate and recycled concrete aggregate. Construction and Building Materials, 2016 May 15; 111:15-21.Search in Google Scholar
GÜNEYISI, E. – GESOĞLU, M. – KAREEM, Q. – İPEK, S.: Effect of different substitution of natural aggregate by recycled aggregate on performance characteristics of pervious concrete. Materials and Structures, 2016 Jan; 49:521-36.Search in Google Scholar
WARDA, M. A. – KHALIL, H. S. – AHMAD, S. – MAHDI, I. M.: Optimum sustainable mix proportions of high strength concrete by using Taguchi method. Frattura ed Integrità Strutturale, 2020 Sep 23; 14(54):211-25.Search in Google Scholar
WARDA, M. A. – KHALIL, H. S. – AHMAD, S. – MAHDI, I. M.: Optimum sustainable mix proportions of high strength concrete by using Taguchi method. Frattura ed Integrità Strutturale, 2020 Sep 23; 14(54):211-25.Search in Google Scholar
CAJKA, R. – MYNARCIK, P. – NEUWIRTHOVA, Z. – MARCALIKOVA, Z. – KROPACEK, M.: Tests of fiber reinforced concrete composite slabs on the subsoil with horizontal load. GEOMATE Journal, 2020 May 30; 18(69):143-50.Search in Google Scholar
YE, L. – HAI, T.K. – DONG, Z.: Optimization of Compressive Strength and Tensile Strength of Ultra-High Performance Concrete, HiperMat Proceedings, Kassel, Germany., 2016, vol. 3, no. 5.Search in Google Scholar
TRAN, T. N. H. – PUTTIWONGRAK, A. – PONGSOPHA, P. – INTARABUT, D. – JAMSAWANG, P. – SUKONTASUKKUL, P.: Microparticle filtration ability of pervious concrete mixed with recycled synthetic fibers. Construction and Building Materials, 2021 Feb 8; 270:121807.Search in Google Scholar
KEVERN, J. T. – BIDDLE, D. – CAO, Q.: Effects of macrosynthetic fibers on pervious concrete properties. Journal of Materials in Civil Engineering, 2015 Sep 1; 27(9):06014031.Search in Google Scholar
LI, V. C. – WANG, Y. – BACKER, S.: Effect of inclining angle, bundling and surface treatment on synthetic fibre pull-out from a cement matrix. Composites, 1990 Mar 1; 21(2):132-40.Search in Google Scholar
SINGH, K.: Mechanical properties of self-curing concrete studied using polyethylene glycol-400: a-review. Materials Today: Proceedings, 2021 Jan 1; 37:2864-71.Search in Google Scholar
AISHWARYA, S. – KAVYA, M. S. – REFFIN, R. – VEENA, S. – VASUDEV, R.: Experimental study on the properties of bendable concrete. In Proceedings of SECON’19: Structural Engineering and Construction Management 3 2020 (pp. 111-121). Springer International Publishing.Search in Google Scholar
NAMSONE, E. – ŠAHMENKO, G. – KORJAKINS, A. – NAMSONE, E.: Influence of porous aggregate on the properties of foamed concrete. Constr. Sci, 2016 Jan 1; 19(1).Search in Google Scholar
SAMPEBULU, V.: Increase on strengths of hot weather concrete by self-curing of wet porous aggregate. Civil Engineering Dimension, 2012 Sep 6; 14(2):92-9.Search in Google Scholar
AITCIN, P. C. – NEVILLE, A.: How the water-cement ratio affects concrete strength. Concrete International, 2003 Aug 1; 25(8):51-8.Search in Google Scholar
LIAN, C. – ZHUGE, Y.: Optimum mix design of enhanced permeable concrete–an experimental investigation. Construction and Building Materials, 2010 Dec 1; 24(12):2664-71.Search in Google Scholar
DEBNATH, B. – SARKAR, P. P.: Pervious concrete as an alternative pavement strategy: A state-of-the-art review. International Journal of Pavement Engineering, 2020 Oct 14;21(12):1516-31Search in Google Scholar
IBRAHIM, A. – MAHMOUD, E. – YAMIN, M. – PATIBANDLA, V. C.: Experimental study on Portland cement pervious concrete mechanical and hydrological properties. Construction and building materials, 2014 Jan 15; 50:524-9.Search in Google Scholar
