This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Ahmed W, Lim CW. Production of sustainable and structural fiber reinforced recycled aggregate concrete with improved fracture properties: A review. J. Clean. Prod. 2021;279:123832.AhmedWLimCW.Production of sustainable and structural fiber reinforced recycled aggregate concrete with improved fracture properties: A review..2021;279:123832.Search in Google Scholar
Karthik D, Nirmalkumar K, Priyadharshini R. Characteristic assessment of self-compacting concrete with supplementary cementitious materials. Constr. Build. Mater. 2021;297:123845.KarthikDNirmalkumarKPriyadharshiniR.Characteristic assessment of self-compacting concrete with supplementary cementitious materials..2021;297:123845.Search in Google Scholar
Hamad BS, Dawi AH. Sustainable normal and high strength recycled aggregate concretes using crushed tested cylinders as coarse aggregates. Case Stud. Constr. Mater. 2017;7:228–239.HamadBSDawiAH.Sustainable normal and high strength recycled aggregate concretes using crushed tested cylinders as coarse aggregates..2017;7:228–239.Search in Google Scholar
Silva RV, De Brito J, Dhir RK. Use of recycled aggregates arising from construction and demolition waste in new construction applications. J. Clean. Prod. 2019;236:117629.SilvaRVDe BritoJDhirRK.Use of recycled aggregates arising from construction and demolition waste in new construction applications..2019;236:117629.Search in Google Scholar
Dimitriou G, Savva P, Petrou MF. Enhancing mechanical and durability properties of recycled aggregate concrete. Constr. Build. Mater. 2018;158:228–235.DimitriouGSavvaPPetrouMF.Enhancing mechanical and durability properties of recycled aggregate concrete..2018;158:228–235.Search in Google Scholar
Sasanipour H, Aslani F, Taherinezhad J. Effect of silica fume on durability of self-compacting concrete made with waste recycled concrete aggregates. Constr. Build. Mater. 2019;227:116598.SasanipourHAslaniFTaherinezhadJ.Effect of silica fume on durability of self-compacting concrete made with waste recycled concrete aggregates..2019;227:116598.Search in Google Scholar
Leite MB, Figueire do Filho JGL, Lima PRL. Workability study of concretes made with recycled mortar aggregate. Mater. Struct. 2013;46:1765–1778.LeiteMBFigueire do FilhoJGLLimaPRL.Workability study of concretes made with recycled mortar aggregate..2013;46:1765–1778.Search in Google Scholar
Yaba HK, Naji HS, Younis KH, Ibrahim TK. Compressive and flexural strengths of recycled aggregate concrete: Effect of different contents of metakaolin. Mater. Today Proc. 2021;45:4719–4723.YabaHKNajiHSYounisKHIbrahimTK.Compressive and flexural strengths of recycled aggregate concrete: Effect of different contents of metakaolin..2021;45:4719–4723.Search in Google Scholar
Fan CC, Huang R, Hwang H, Chao SJ. Properties of concrete incorporating fine recycled aggregates from crushed concrete wastes. Constr. Build. Mater. 2016;112:708–715.FanCCHuangRHwangHChaoSJ.Properties of concrete incorporating fine recycled aggregates from crushed concrete wastes..2016;112:708–715.Search in Google Scholar
Sim J, Park C. Compressive strength and resistance to chloride ion penetration and carbonation of recycled aggregate concrete with varying amount of fly ash and fine recycled aggregate. Waste Manag. 2011;31(11):2352–2360.SimJParkC.Compressive strength and resistance to chloride ion penetration and carbonation of recycled aggregate concrete with varying amount of fly ash and fine recycled aggregate..2011;31(11):2352–2360.Search in Google Scholar
Geng J, Sun J. Characteristics of the carbonation resistance of recycled fine aggregate concrete. Constr. Build. Mater. 2013;49:814–820.GengJSunJ.Characteristics of the carbonation resistance of recycled fine aggregate concrete..2013;49:814–820.Search in Google Scholar
Jiang J, Tian Y, Lu D, Lu X, Ji K, Jia K, . Internal corrosion characteristics of endogenous sulfate introduced by recycled aggregates in recycled aggregates concrete: Insights into the macro-mechanical and meso-mechanical properties. J. Clean. Prod. 2023;426:139085.JiangJTianYLuDLuXJiKJiaK.Internal corrosion characteristics of endogenous sulfate introduced by recycled aggregates in recycled aggregates concrete: Insights into the macro-mechanical and meso-mechanical properties..2023;426:139085.Search in Google Scholar
Berredjem L, Arabi N, Molez L. Mechanical and durability properties of concrete based on recycled coarse and fine aggregates produced from demolished concrete. Constr. Build. Mater. 2020;246:118421. https://doi.org/10.1016/j.conbuildmat.2020.118421.BerredjemLArabiNMolezL.Mechanical and durability properties of concrete based on recycled coarse and fine aggregates produced from demolished concrete..2020;246:118421. https://doi.org/10.1016/j.conbuildmat.2020.118421.Open DOISearch in Google Scholar
Zhou Y, Gong G, Huang Y, Chen C, Huang D, Chen Z, . Feasibility of incorporating recycled fine aggregate in high performance green lightweight engineered cementitious composites. J. Clean. Prod. 2021;280:124445.ZhouYGongGHuangYChenCHuangDChenZ.Feasibility of incorporating recycled fine aggregate in high performance green lightweight engineered cementitious composites..2021;280:124445.Search in Google Scholar
Ravindrarajah RS, Tam CT. Recycling concrete as fine aggregate in concrete. Int. J. Cem. Compos. Light. Concr. 1987;9(4):235–241.RavindrarajahRSTamCT.Recycling concrete as fine aggregate in concrete..1987;9(4):235–241.Search in Google Scholar
Khatib JM. Properties of concrete incorporating fine recycled aggregate. Cem. Concr. Res. 2005;35(4):763–769.KhatibJM.Properties of concrete incorporating fine recycled aggregate..2005;35(4):763–769.Search in Google Scholar
Evangelista L, De Brito J. Mechanical behaviour of concrete made with fine recycled concrete aggregates. Cem. Concr. Compos. 2007;29(5):397–401.EvangelistaLDe BritoJ.Mechanical behaviour of concrete made with fine recycled concrete aggregates..2007;29(5):397–401.Search in Google Scholar
Bogas JA, De Brito J, Ramos D. Freeze–thaw resistance of concrete produced with fine recycled concrete aggregates. J. Clean. Prod. 2016;115:294–306.BogasJADe BritoJRamosD.Freeze–thaw resistance of concrete produced with fine recycled concrete aggregates..2016;115:294–306.Search in Google Scholar
Resheq AS. Behavior of recycled aggregate fibrous reinforced beams under flexural and shear loading. Eng. Technol. J. 2019;37(3 Part C).ResheqAS.Behavior of recycled aggregate fibrous reinforced beams under flexural and shear loading..2019;37(3 Part C).Search in Google Scholar
Bai G, Zhu C, Liu C, Liu B. An evaluation of the recycled aggregate characteristics and the recycled aggregate concrete mechanical properties. Constr. Build. Mater. 2020;240:117978. https://doi.org/https://doi.org/10.1016/j.conbuildmat.2019.117978.BaiGZhuCLiuCLiuB.An evaluation of the recycled aggregate characteristics and the recycled aggregate concrete mechanical properties..2020;240:117978. https://doi.org/https://doi.org/10.1016/j.conbuildmat.2019.117978.Open DOISearch in Google Scholar
Singh A, Duan Z, Xiao J, Liu Q. Incorporating recycled aggregates in self-compacting concrete: A review. J. Sustain. Cem. Mater. 2020;9(3):165–189.SinghADuanZXiaoJLiuQ.Incorporating recycled aggregates in self-compacting concrete: A review..2020;9(3):165–189.Search in Google Scholar
Kou SC, Poon CS, Wan HW. Properties of concrete prepared with low-grade recycled aggregates. Constr. Build. Mater. 2012;36:881–889.KouSCPoonCSWanHW.Properties of concrete prepared with low-grade recycled aggregates..2012;36:881–889.Search in Google Scholar
Aljasimee DH, Dhaheer MSA. Fresh and hardened properties of self-compacting concrete incorporating PVA-treated recycled aggregate. IOP Conf. Ser. Mater. Sci. Eng. IOP Publishing; 2020. p. 12103.AljasimeeDHDhaheerMSA.Fresh and hardened properties of self-compacting concrete incorporating PVA-treated recycled aggregate..IOP Publishing;2020. p.12103.Search in Google Scholar
Al-Jasimee DH, Dhaheer MA. Shear behavior of reinforced self-compacting concrete beams made with treated recycled aggregate. Al-Qadisiyah J. Eng. Sci. 2019;12:193–198.Al-JasimeeDHDhaheerMA.Shear behavior of reinforced self-compacting concrete beams made with treated recycled aggregate..2019;12:193–198.Search in Google Scholar
Ghoneim M, Yehia A, Yehia S, Abuzaid W. Shear strength of fiber reinforced recycled aggregate concrete. Materials (Basel). 2020;13(18):4183.GhoneimMYehiaAYehiaSAbuzaidW.Shear strength of fiber reinforced recycled aggregate concrete..2020;13(18):4183.Search in Google Scholar
Grabiec AM, Klama J, Zawal D, Krupa D. Modification of recycled concrete aggregate by calcium carbonate biodeposition. Constr. Build. Mater. 2012;34:145–150.GrabiecAMKlamaJZawalDKrupaD.Modification of recycled concrete aggregate by calcium carbonate biodeposition..2012;34:145–150.Search in Google Scholar
Zhang J, Shi C, Li Y, Pan X, Poon CS, Xie Z. Performance enhancement of recycled concrete aggregates through carbonation. J. Mater. Civ. Eng. 2015;27(11):4015029.ZhangJShiCLiYPanXPoonCSXieZ.Performance enhancement of recycled concrete aggregates through carbonation..2015;27(11):4015029.Search in Google Scholar
Katz A. Treatments for the improvement of recycled aggregate. J. Mater. Civ. Eng. 2004;16(6):597–603.KatzA.Treatments for the improvement of recycled aggregate..2004;16(6):597–603.Search in Google Scholar
Katkhuda H, Shatarat N. Shear behavior of reinforced concrete beams using treated recycled concrete aggregate. Constr. Build. Mater. 2016;125:63–71.KatkhudaHShataratN.Shear behavior of reinforced concrete beams using treated recycled concrete aggregate..2016;125:63–71.Search in Google Scholar
Barbudo A, De Brito J, Evangelista L, Bravo M, Agrela F. Influence of water-reducing admixtures on the mechanical performance of recycled concrete. J. Clean. Prod. 2013;59:93–98.BarbudoADe BritoJEvangelistaLBravoMAgrelaF.Influence of water-reducing admixtures on the mechanical performance of recycled concrete..2013;59:93–98.Search in Google Scholar
Dilbas H, Şimşek M, Çakır Ö. An investigation on mechanical and physical properties of recycled aggregate concrete (RAC) with and without silica fume. Constr. Build. Mater. 2014;61:50–59.DilbasHŞimşekMÇakırÖ.An investigation on mechanical and physical properties of recycled aggregate concrete (RAC) with and without silica fume..2014;61:50–59.Search in Google Scholar
Kou S cong, Poon C sun, Agrela F. Comparisons of natural and recycled aggregate concretes prepared with the addition of different mineral admixtures. Cem. Concr. Compos. 2011;33(8):788–795.KouS congPoonC sunAgrelaF.Comparisons of natural and recycled aggregate concretes prepared with the addition of different mineral admixtures..2011;33(8):788–795.Search in Google Scholar
Xie J, Kou S cong, Ma H, Long WJ, Wang Y, Ye TH. Advances on properties of fiber reinforced recycled aggregate concrete: Experiments and models. Constr. Build. Mater. 2021;277:122345.XieJKouS congMaHLongWJWangYYeTH.Advances on properties of fiber reinforced recycled aggregate concrete: Experiments and models..2021;277:122345.Search in Google Scholar
Richardson A, Coventry K, Bacon J. Freeze/thaw durability of concrete with recycled demolition aggregate compared to virgin aggregate concrete. J. Clean. Prod. 2011;19(2–3):272–277.RichardsonACoventryKBaconJ.Freeze/thaw durability of concrete with recycled demolition aggregate compared to virgin aggregate concrete..2011;19(2–3):272–277.Search in Google Scholar
Yunsheng Z, Wei S, Zongjin L. Impact behavior and microstructural characteristics of PVA fiber reinforced fly ash-geopolymer boards prepared by extrusion technique. J. Mater. Sci. 2006;41:2787–2794.YunshengZWeiSZongjinL.Impact behavior and microstructural characteristics of PVA fiber reinforced fly ash-geopolymer boards prepared by extrusion technique..2006;41:2787–2794.Search in Google Scholar
Iraqi Standard NO.45. Aggregate from natural sources for concrete and building construction. Baghdad: Central Organization for Standardization and Quality Control; 1984.Iraqi Standard NO.45..Baghdad:Central Organization for Standardization and Quality Control;1984.Search in Google Scholar
Iraqi Standard NO.5. Portland Cement. Baghdad: Central Organization for Standardization and Quality Control; 2019.Iraqi Standard NO.5..Baghdad:Central Organization for Standardization and Quality Control;2019.Search in Google Scholar
ASTM C1240. Standard specification for silica fume used in cementitious mixtures. West Conshohocken, PA: ASTM International; 2014.ASTM C1240..West Conshohocken, PA:ASTM International;2014.Search in Google Scholar
ASTM C494/C494M. Standard specification for chemical admixtures for concrete. West Conshohocken, PA: ASTM International; 2013.ASTM C494/C494M..West Conshohocken, PA:ASTM International;2013.Search in Google Scholar
Alqarni AS, Abbas H, Al-Shwikh KM, Al-Salloum YA. Treatment of recycled concrete aggregate to enhance concrete performance. Constr. Build. Mater. 2021;307:124960. https://doi.org/10.1016/j.conbuild mat.2021.124960.AlqarniASAbbasHAl-ShwikhKMAl-SalloumYA.Treatment of recycled concrete aggregate to enhance concrete performance..2021;307:124960. https://doi.org/10.1016/j.conbuild mat.2021.124960.Open DOISearch in Google Scholar
BS EN 12390-3. Testing hardened concrete Part 3: Compressive strength of test specimens. London, UK: British Standard Institution (BSI); 2009.BS EN 12390-3..London, UK:British Standard Institution (BSI);2009.Search in Google Scholar
12390-6 BE. Testing hardened concrete Part 6: Tensile splitting strength of test specimens. London, UK:British Standard Institution (BSI); 2009.12390-6 BE..London, UK:British Standard Institution (BSI);2009.Search in Google Scholar
ASTM C78. Standard test method for flexural strength of concrete (using simple beam with third-point loading). West Conshohocken, PA: ASTM International; 2015.ASTM C78..West Conshohocken, PA:ASTM International;2015.Search in Google Scholar
C143/C143M. Standard test method for slump of hydraulic-cement concrete. West Conshohocken, PA: ASTM International; 2015.C143/C143M..West Conshohocken, PA:ASTM International;2015.Search in Google Scholar
ASTM C597. Standard test method for pulse velocity through concrete. West Conshohocken, PA: ASTM International; 2009.ASTM C597..West Conshohocken, PA:ASTM International;2009.Search in Google Scholar
ACI 211.1. Guide for selecting proportions for high-strength concrete using portland cement and other cementitious materials. Michigan, USA: American Concrete Institute (ACI); 2008.ACI 211.1..Michigan, USA:American Concrete Institute (ACI);2008.Search in Google Scholar
Tran DVP, Allawi A, Albayati A, Cao TN, El-Zohairy A, Nguyen YTH. Recycled concrete aggregate for medium-quality structural concrete. Materials (Basel). 2021;14(16):4612.TranDVPAllawiAAlbayatiACaoTNEl-ZohairyANguyenYTH.Recycled concrete aggregate for medium-quality structural concrete..2021;14(16):4612.Search in Google Scholar
Liew KM, Akbar A. The recent progress of recycled steel fiber reinforced concrete. Constr. Build. Mater. 2020;232:117232. https://doi.org/10.1016/j.conbuild mat.2019.117232.LiewKMAkbarA.The recent progress of recycled steel fiber reinforced concrete..2020;232:117232. https://doi.org/10.1016/j.conbuild mat.2019.117232.Open DOISearch in Google Scholar
Bao J, Li S, Zhang P, Ding X, Xue S, Cui Y, . Influence of the incorporation of recycled coarse aggregate on water absorption and chloride penetration into concrete. Constr. Build. Mater. 2020;239:117845. https://doi.org/10.1016/j.conbuildmat.2019.117845.BaoJLiSZhangPDingXXueSCuiY.Influence of the incorporation of recycled coarse aggregate on water absorption and chloride penetration into concrete..2020;239:117845. https://doi.org/10.1016/j.conbuildmat.2019.117845.Open DOISearch in Google Scholar
Kachouh N, El-Hassan H, El-Maaddawy T. Effect of steel fibers on the performance of concrete made with recycled concrete aggregates and dune sand. Constr. Build. Mater. 2019;213:348–359. https://doi.org/10.1016/j.conbuildmat.2019.04.087.KachouhNEl-HassanHEl-MaaddawyT.Effect of steel fibers on the performance of concrete made with recycled concrete aggregates and dune sand..2019;213:348–359. https://doi.org/10.1016/j.conbuildmat.2019.04.087.Open DOISearch in Google Scholar
Jain A, Sharma N, Choudhary R, Gupta R, Chaudhary S. Utilization of non-metalized plastic bag fibers along with fly ash in concrete. Constr. Build. Mater. 2021;291:123329.JainASharmaNChoudharyRGuptaRChaudharyS.Utilization of non-metalized plastic bag fibers along with fly ash in concrete..2021;291:123329.Search in Google Scholar
Abadel AA, Nasr MS, Shubbar A, Hashim TM, Tuladhar R. Potential use of rendering mortar waste powder as a cement replacement material: Fresh, mechanical, durability and microstructural properties. Sustainability. 2023;15(15):11659.AbadelAANasrMSShubbarAHashimTMTuladharR.Potential use of rendering mortar waste powder as a cement replacement material: Fresh, mechanical, durability and microstructural properties..2023;15(15):11659.Search in Google Scholar
Sasanipour H, Aslani F. Durability properties evaluation of self-compacting concrete prepared with waste fine and coarse recycled concrete aggregates. Constr. Build. Mater. 2020;236:117540. https://doi.org/10.1016/j.conb uildmat.2019.117540.SasanipourHAslaniF.Durability properties evaluation of self-compacting concrete prepared with waste fine and coarse recycled concrete aggregates..2020;236:117540. https://doi.org/10.1016/j.conb uildmat.2019.117540.Open DOISearch in Google Scholar
Sáez del Bosque IF, Zhu W, Howind T, Matías A, Sánchez de Rojas MI, Medina C. Properties of interfacial transition zones (ITZs) in concrete containing recycled mixed aggregate. Cem. Concr. Compos. 2017;81:25–34. https://doi.org/10.1016/j.cemconco mp.2017.04.011.Sáez del BosqueIFZhuWHowindTMatíasASánchez de RojasMIMedinaC.Properties of interfacial transition zones (ITZs) in concrete containing recycled mixed aggregate..2017;81:25–34. https://doi.org/10.1016/j.cemconco mp.2017.04.011.Open DOISearch in Google Scholar
Gao D, Wang F. Effects of recycled fine aggregate and steel fiber on compressive and splitting tensile properties of concrete. J. Build. Eng. 2021;44:102631. https://doi.org/10.1016/j.jobe.2021.102631.GaoDWangF.Effects of recycled fine aggregate and steel fiber on compressive and splitting tensile properties of concrete..2021;44:102631. https://doi.org/10.1016/j.jobe.2021.102631.Open DOISearch in Google Scholar
Pedro D, de Brito J, Evangelista L. Structural concrete with simultaneous incorporation of fine and coarse recycled concrete aggregates: Mechanical, durability and long-term properties. Constr. Build. Mater. 2017;154:294–309. https://doi.org/10.1016/j.conbuildmat.2017.07.215.PedroDde BritoJEvangelistaL.Structural concrete with simultaneous incorporation of fine and coarse recycled concrete aggregates: Mechanical, durability and long-term properties..2017;154:294–309. https://doi.org/10.1016/j.conbuildmat.2017.07.215.Open DOISearch in Google Scholar
Al-Rekabi AH, Al-Marmadi SM, Dhaheer MS, Al-Ramahee M. AIP Conf. Proc: Experimental investigation on sustainable fiber reinforced self-compacting concrete made with treated recycled aggregate. AIP Publishing; 2023.Al-RekabiAHAl-MarmadiSMDhaheerMSAl-RamaheeM.AIP Conf..AIP Publishing;2023.Search in Google Scholar
Al-Rekabi AH, Abo Dhaheer MS. Flexural performance of sustainable hybrid fibre-reinforced SCC beams made of treated recycled aggregates. J. Build. Pathol. Rehabil. 2024;9(1):33.Al-RekabiAHAbo DhaheerMS.Flexural performance of sustainable hybrid fibre-reinforced SCC beams made of treated recycled aggregates..2024;9(1):33.Search in Google Scholar
Zaid O, Mukhtar FM, M-García R, El Sherbiny MG, Mohamed AM. Characteristics of high-performance steel fiber reinforced recycled aggregate concrete utilizing mineral filler. Case Stud. Constr. Mater. 2022;16:e00939. https://doi.org/10.1016/j.cscm.202 2.e00939.ZaidOMukhtarFMM-GarcíaREl SherbinyMGMohamedAM.Characteristics of high-performance steel fiber reinforced recycled aggregate concrete utilizing mineral filler..2022;16:e00939. https://doi.org/10.1016/j.cscm.202 2.e00939.Open DOISearch in Google Scholar
Sasanipour H, Aslani F. Durability assessment of concrete containing surface pretreated coarse recycled concrete aggregates. Constr. Build. Mater. 2020;264:120203. https://doi.org/10.1016/j.conbuildma t.2020.120203.SasanipourHAslaniF.Durability assessment of concrete containing surface pretreated coarse recycled concrete aggregates..2020;264:120203. https://doi.org/10.1016/j.conbuildma t.2020.120203.Open DOISearch in Google Scholar
Datta SD, Sobuz MHR, Akid ASM, Islam S. Influence of coarse aggregate size and content on the properties of recycled aggregate concrete using non-destructive testing methods. J. Build. Eng. 2022;61:105249. https://doi.org/10.1016/j.jobe.2022.105249.DattaSDSobuzMHRAkidASMIslamS.Influence of coarse aggregate size and content on the properties of recycled aggregate concrete using non-destructive testing methods..2022;61:105249. https://doi.org/10.1016/j.jobe.2022.105249.Open DOISearch in Google Scholar
Mahapatra CK, Barai SV. Temperature impact on residual properties of self-compacting based hybrid fiber reinforced concrete with fly ash and colloidal nano silica. Constr. Build. Mater. 2019;198:120–132. https://doi.org/10.1016/j.conbuildmat.2018.11.155.MahapatraCKBaraiSV.Temperature impact on residual properties of self-compacting based hybrid fiber reinforced concrete with fly ash and colloidal nano silica..2019;198:120–132. https://doi.org/10.1016/j.conbuildmat.2018.11.155.Open DOISearch in Google Scholar
Choi Y, Kim IH, Lim HJ, Cho CG. Investigation of strength properties for concrete containing fine-rubber particles using UPV. Materials (Basel). 2022;15(10):3452.ChoiYKimIHLimHJChoCG.Investigation of strength properties for concrete containing fine-rubber particles using UPV..2022;15(10):3452.Search in Google Scholar