This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Yazdani, M., Kabirifar, K., Frimpong, B.E., Shariati, M., Mirmozaffari, M., Boskabadi, A., Improving construction and demolition waste collection service in an urban area using a simheuristic approach: A case study in Sydney, Australia, J. Clean. Prod., 2021, 280: 124138YazdaniM.KabirifarK.FrimpongB.E.ShariatiM.MirmozaffariM.BoskabadiA.Improving construction and demolition waste collection service in an urban area using a simheuristic approach: A case study in Sydney, AustraliaJ. Clean. Prod.2021280124138Search in Google Scholar
Saleh, T.A., Protocols for synthesis of nanomaterials, polymers, and green materials as adsorbents for water treatment technologies, Environ. Technol. Innov., 2021, 24: 101821SalehT.A.Protocols for synthesis of nanomaterials, polymers, and green materials as adsorbents for water treatment technologiesEnviron. Technol. Innov.202124101821Search in Google Scholar
Ho, H.-J., Iizuka, A., Shibata, E., Chemical recycling and use of various types of concrete waste: A review, J. Clean. Prod., 2021, 284: 124785HoH.-J.IizukaA.ShibataE.Chemical recycling and use of various types of concrete waste: A reviewJ. Clean. Prod.2021284124785Search in Google Scholar
Yazdani, M., Kabirifar, K., Frimpong, B.E., Shariati, M., Mirmozaffari, M., Boskabadi, A., Improving construction and demolition waste collection service in an urban area using a simheuristic approach: A case study in Sydney, Australia, J. Clean. Prod., 2021, 280: 124138YazdaniM.KabirifarK.FrimpongB.E.ShariatiM.MirmozaffariM.BoskabadiA.Improving construction and demolition waste collection service in an urban area using a simheuristic approach: A case study in Sydney, AustraliaJ. Clean. Prod.2021280124138Search in Google Scholar
Zhang, D., Zhang, S., Huang, B., Yang, Q., Li, J., Comparison of mechanical, chemical, and thermal activation methods on the utilisation of recycled concrete powder from construction and demolition waste, J. Build. Eng., 2022, 61: 105295ZhangD.ZhangS.HuangB.YangQ.LiJ.Comparison of mechanical, chemical, and thermal activation methods on the utilisation of recycled concrete powder from construction and demolition wasteJ. Build. Eng.202261105295Search in Google Scholar
Ashraf, M.J., Idrees, M., Akbar, A., Performance of silica fume slurry treated recycled aggregate concrete reinforced with carbon fibers, J. Build. Eng., 2023, 66: 105892AshrafM.J.IdreesM.AkbarA.Performance of silica fume slurry treated recycled aggregate concrete reinforced with carbon fibersJ. Build. Eng.202366105892Search in Google Scholar
Huang, B., Wang, X., Kua, H., Geng, Y., Bleischwitz, R., Ren, J., Construction and demolition waste management in China through the 3R principle, Resour. Conserv. Recycl., 2018, 129: 36–44HuangB.WangX.KuaH.GengY.BleischwitzR.RenJ.Construction and demolition waste management in China through the 3R principleResour. Conserv. Recycl.20181293644Search in Google Scholar
Yue, G., Ma, Z., Liu, M., Liang, C., Ba, G., Damage behavior of the multiple ITZs in recycled aggregate concrete subjected to aggressive ion environment, Constr. Build. Mater., 2020, 245: 118419YueG.MaZ.LiuM.LiangC.BaG.Damage behavior of the multiple ITZs in recycled aggregate concrete subjected to aggressive ion environmentConstr. Build. Mater.2020245118419Search in Google Scholar
Wu, H., Zuo, J., Zillante, G., Wang, J., Yuan, H., Status quo and future directions of construction and demolition waste research: A critical review, J. Clean. Prod., 2019, 240: 118163WuH.ZuoJ.ZillanteG.WangJ.YuanH.Status quo and future directions of construction and demolition waste research: A critical reviewJ. Clean. Prod.2019240118163Search in Google Scholar
Feng, C., Cui, B., Huang, Y., Guo, H., Zhang, W., Zhu, J., Enhanceement technologies of recycled aggregate- Enhancement mechanism, influencing factors, improvement effects, technical difficulties life cycle assessment, Constr. Build. Mater., 2022, 317: 126168FengC.CuiB.HuangY.GuoH.ZhangW.ZhuJ.Enhanceement technologies of recycled aggregate- Enhancement mechanism, influencing factors, improvement effects, technical difficulties life cycle assessmentConstr. Build. Mater.2022317126168Search in Google Scholar
Wu, H., Liang, C., Zhang, Z., Yao, P., Wang, C., Ma, Z., Utilizing heat treatment for making low-quality recycled aggregate into enhanced recycled aggregate, recycled cement and their fully recycled concrete, Constr. Build. Mater., 2023, 394: 132126WuH.LiangC.ZhangZ.YaoP.WangC.MaZ.Utilizing heat treatment for making low-quality recycled aggregate into enhanced recycled aggregate, recycled cement and their fully recycled concreteConstr. Build. Mater.2023394132126Search in Google Scholar
Li, L., Lu, J., Shen, P., Sun, K., Pua, L., Xiao, J., et al., Roles of recycled fine aggregate and carbonated recycled fine aggregate in alkali-activated slag and glass powder mortar, Constr. Build. Mater., 2023, 364: 129876LiL.LuJ.ShenP.SunK.PuaL.XiaoJ.Roles of recycled fine aggregate and carbonated recycled fine aggregate in alkali-activated slag and glass powder mortarConstr. Build. Mater.2023364129876Search in Google Scholar
Li, J., Zhan, B., Gao, P., Hu, L., Qiao, M., Sha, H., et al., Effects of recycled concrete powders on the rheology, setting and early age strength of cement paste, Constr. Build. Mater., 2023, 401: 132899LiJ.ZhanB.GaoP.HuL.QiaoM.ShaH.Effects of recycled concrete powders on the rheology, setting and early age strength of cement pasteConstr. Build. Mater.2023401132899Search in Google Scholar
Wang, C., Yu, Q., Zhan, B., Gao, P., Guo, B., Chu, Y., et al., Activity quantification and assessment of recycled concrete powder based on the contributions of the dilution effect, physical effect and chemical effect, J. Clean. Prod., 2024, 442: 140918WangC.YuQ.ZhanB.GaoP.GuoB.ChuY.Activity quantification and assessment of recycled concrete powder based on the contributions of the dilution effect, physical effect and chemical effectJ. Clean. Prod.2024442140918Search in Google Scholar
Ibrahim, M., Alimi, W., Assaggaf, R., Salami, B.A., Oladapo, E.A., An overview of factors influencing the properties of concrete incorporating construction and demolition wastes, Constr. Build. Mater., 2023, 367: 130307IbrahimM.AlimiW.AssaggafR.SalamiB.A.OladapoE.A.An overview of factors influencing the properties of concrete incorporating construction and demolition wastesConstr. Build. Mater.2023367130307Search in Google Scholar
Cantero, B., Bravo, M., de Brito, J., Sáez del Bosque, I.F., Medina, C., Mechanical behaviour of structural concrete with ground recycled concrete cement and mixed recycled aggregate, J. Clean. Prod., 2020, 275: 122913CanteroB.BravoM.de BritoJ.Sáez del BosqueI.F.MedinaC.Mechanical behaviour of structural concrete with ground recycled concrete cement and mixed recycled aggregateJ. Clean. Prod.2020275122913Search in Google Scholar
Fang, X., Xuan, D., Zhan, B., Li, W., Poon, C.S., Characterization and optimization of a two-step carbonation process for valorization of recycled cement paste fine powder, Constr. Build. Mater., 2021, 278: 122343FangX.XuanD.ZhanB.LiW.PoonC.S.Characterization and optimization of a two-step carbonation process for valorization of recycled cement paste fine powderConstr. Build. Mater.2021278122343Search in Google Scholar
He, Z., Han, X., Zhang, M., Yuan, Q., Shi, Jy, Zhan, Pm, A novel development of green UHPC containing waste concrete powder derived from construction and demolition waste, Powder Technol., 2022, 398: 117075HeZ.HanX.ZhangM.YuanQ.ShiJyZhanPmA novel development of green UHPC containing waste concrete powder derived from construction and demolition wastePowder Technol.2022398117075Search in Google Scholar
Ren, P., Li, B., Yu, J.G., Ling, T.C., Utilization of recycled concrete fines and powders to produce alkali-activated slag concrete blocks, J. Clean. Prod., 2020, 267: 122115RenP.LiB.YuJ.G.LingT.C.Utilization of recycled concrete fines and powders to produce alkali-activated slag concrete blocksJ. Clean. Prod.2020267122115Search in Google Scholar
Dal Poggetto, G., Fortunato, M., Cardinale, A.M., Leonelli, C., Thermal, chemical and mechanical characterization of recycled corundum powder in metakaolin-based geopolymer binder, Appl. Clay Sci., 2023, 237: 106875Dal PoggettoG.FortunatoM.CardinaleA.M.LeonelliC.Thermal, chemical and mechanical characterization of recycled corundum powder in metakaolin-based geopolymer binderAppl. Clay Sci.2023237106875Search in Google Scholar
Xu, J., Kang, A., Wu, Z., Gong, Y., Xiao, P., The effect of mechanical-thermal synergistic activation on the mechanical properties and microstructure of recycled powder geopolymer, J. Clean. Prod., 2021, 327: 129477XuJ.KangA.WuZ.GongY.XiaoP.The effect of mechanical-thermal synergistic activation on the mechanical properties and microstructure of recycled powder geopolymerJ. Clean. Prod.2021327129477Search in Google Scholar
Kim, J., Jang, H., Closed-loop recycling of C&D waste: Mechanical properties of concrete with the repeatedly recycled C&D powder as partial cement replacement, J. Clean. Prod., 2022, 343: 130977KimJ.JangH.Closed-loop recycling of C&D waste: Mechanical properties of concrete with the repeatedly recycled C&D powder as partial cement replacementJ. Clean. Prod.2022343130977Search in Google Scholar
Sharma, A., Singh, P., Kapoor, K., Utilization of recycled fine powder as an activator in fly ash based geopolymer mortar, Constr. Build. Mater., 2022, 323: 126581SharmaA.SinghP.KapoorK.Utilization of recycled fine powder as an activator in fly ash based geopolymer mortarConstr. Build. Mater.2022323126581Search in Google Scholar
Liu, M., Yang, D., Chen, L., Chen, G., Ma, Z., Effect of silicate modulus and alkali content on the microstructure and macroscopic properties of alkali-activated recycled powder mortar, Constr. Build. Mater., 2023, 397: 132365LiuM.YangD.ChenL.ChenG.MaZ.Effect of silicate modulus and alkali content on the microstructure and macroscopic properties of alkali-activated recycled powder mortarConstr. Build. Mater.2023397132365Search in Google Scholar
Kumar, R., Kumar, S., Mehrotra, S.P., Towards sustainable solutions for fly ash through mechanical activation, Resour. Conserv. Recycl., 2007, 52: 157–179KumarR.KumarS.MehrotraS.P.Towards sustainable solutions for fly ash through mechanical activationResour. Conserv. Recycl.200752157179Search in Google Scholar
Wang, H., Yu, G., He, W., Du, C., Deng, Z., Wang, D., et al., An accelerator prepared from waste concrete recycled powder and its effect on hydration of cement-based materials, Constr. Build. Mater., 2021, 296: 123767WangH.YuG.HeW.DuC.DengZ.WangD.An accelerator prepared from waste concrete recycled powder and its effect on hydration of cement-based materialsConstr. Build. Mater.2021296123767Search in Google Scholar
Zhou, R., Jin, B., Wu, S., Fan, S., Hang, F., Chen, H., Study on sustainable application of low-carbon supersulfated cement with alkanolamines, Sustainability, 2024, 16: 3008ZhouR.JinB.WuS.FanS.HangF.ChenH.Study on sustainable application of low-carbon supersulfated cement with alkanolaminesSustainability2024163008Search in Google Scholar
Zhai, Q., Kurumisawa, K., Moon, J., A comparative study of alkanolamines and inorganic additives on the microstructure development of blast furnace slag blended cement at low curing temperature, Constr. Build. Mater., 2023, 408: 133779ZhaiQ.KurumisawaK.MoonJ.A comparative study of alkanolamines and inorganic additives on the microstructure development of blast furnace slag blended cement at low curing temperatureConstr. Build. Mater.2023408133779Search in Google Scholar
Lee, I.-H., Kim, D., Development of anchored grout material using blast furnace slag powder and aramid fiber in terms of waste recycing, J. Korean Soc. Environ. Technol., 2018, 19: 457–468LeeI.-H.KimD.Development of anchored grout material using blast furnace slag powder and aramid fiber in terms of waste recycingJ. Korean Soc. Environ. Technol.201819457468Search in Google Scholar
GB/T 17671-2021, Test method of cement mortar strength (ISO method), China Standards Press, Beijing, China, 2021GB/T 17671-2021, Test method of cement mortar strength (ISO method), China Standards Press, Beijing, China2021Search in Google Scholar
JG/T 408-2013, Cementitous grout for coupler of rebar splicing, China Building Standards Press, Beijing, China, 2013JG/T 408-2013, Cementitous grout for coupler of rebar splicing, China Building Standards Press, Beijing, China2013Search in Google Scholar
Sasui, S., Kim, G., van Riessen, A., Alam, S.F., Nam, J., Ishak, S., et al., Influence of elevated temperature on waste concrete powder and its application in alkali activated materials, J. Clean. Prod., 2024, 434: 140423SasuiS.KimG.van RiessenA.AlamS.F.NamJ.IshakS.Influence of elevated temperature on waste concrete powder and its application in alkali activated materialsJ. Clean. Prod.2024434140423Search in Google Scholar
He, Z., Hu, R., Ma, Z., Liu, X., Wang, C., Wu, H., Reusing thermoactivated construction waste spoil as sustainable binder for durable concrete: Microstructure and chloride transport, Constr. Build. Mater., 2023, 398: 132553HeZ.HuR.MaZ.LiuX.WangC.WuH.Reusing thermoactivated construction waste spoil as sustainable binder for durable concrete: Microstructure and chloride transportConstr. Build. Mater.2023398132553Search in Google Scholar
Rocha, J.H.A., Filho, R.D.T., The utilization of recycled concrete powder as supplementary cementitious material in cement-based materials: A systematic literature review, J. Build. Eng., 2023, 76: 107319RochaJ.H.A.FilhoR.D.T.The utilization of recycled concrete powder as supplementary cementitious material in cement-based materials: A systematic literature reviewJ. Build. Eng.202376107319Search in Google Scholar
Shui, Z., Xuan, D., Chen, W., Yu, R., Zhang, R., Cementitious characteristics of hydrated cement paste subjected to various dehydration temperatures, Constr. Build. Mater., 2009, 23: 531–537ShuiZ.XuanD.ChenW.YuR.ZhangR.Cementitious characteristics of hydrated cement paste subjected to various dehydration temperaturesConstr. Build. Mater.200923531537Search in Google Scholar
Li, H., Dong, L., Jiang, Z., Yang, X., Yang, Z., Study on utilization of red brick waste powder in the production of cement-based red decorative plaster for walls, J. Clean. Prod., 2016, 133: 1017–1026LiH.DongL.JiangZ.YangX.YangZ.Study on utilization of red brick waste powder in the production of cement-based red decorative plaster for wallsJ. Clean. Prod.201613310171026Search in Google Scholar
Duan, Z., Hou, S., Xiao, J., Singh, A., Rheological properties of mortar containing recycled powders from construction and demolition wastes, Constr. Build. Mater., 2020, 237: 117622DuanZ.HouS.XiaoJ.SinghA.Rheological properties of mortar containing recycled powders from construction and demolition wastesConstr. Build. Mater.2020237117622Search in Google Scholar
Wang, Y., Lei, L., Shi, C., Effect of diethanolisopropanolamine and ethyldiisopropylamine on hydration and strength development of cement-fly ash-limestone ternary blend, Cem. Concr. Compos., 2024, 145: 105354WangY.LeiL.ShiC.Effect of diethanolisopropanolamine and ethyldiisopropylamine on hydration and strength development of cement-fly ash-limestone ternary blendCem. Concr. Compos.2024145105354Search in Google Scholar
Zhang, B., Feng, Y., Xie, J., Dai, J., Chen, W., Xue, Z., et al., Effects of pretreated recycled powder substitution on mechanical properties and microstructures of alkali-activated cement, Constr. Build. Mater., 2023, 406: 133360ZhangB.FengY.XieJ.DaiJ.ChenW.XueZ.Effects of pretreated recycled powder substitution on mechanical properties and microstructures of alkali-activated cementConstr. Build. Mater.2023406133360Search in Google Scholar
Xuan, D.X., Shui, Z.H., Rehydration activity of hydrated cement paste exposed to high temperature, Fire Mater., 2011, 35(7): 481–490XuanD.X.ShuiZ.H.Rehydration activity of hydrated cement paste exposed to high temperatureFire Mater.2011357481490Search in Google Scholar
Gong, Y.F., Fang, Y.H., Yan, Y.R., Chen, L.Q., Investigation on alkali activated recycled cement mortar powder cementitious material, Mater. Res. Innov., 2014, 18(S2): 784–787GongY.F.FangY.H.YanY.R.ChenL.Q.Investigation on alkali activated recycled cement mortar powder cementitious materialMater. Res. Innov.201418S2784787Search in Google Scholar
Xu, L., Wang, J., Li, K., Lin, S., Li, M., Hao, T., et al., A systematic review of factors affecting properties of thermal-activated recycled cement, Resour. Conserv. Recycl., 2022, 185: 106432XuL.WangJ.LiK.LinS.LiM.HaoT.A systematic review of factors affecting properties of thermal-activated recycled cementResour. Conserv. Recycl.2022185106432Search in Google Scholar
Chen, L., Wei, M., Lei, N., Li, H., Effect of chemical-thermal activation on the properties of recycled fine powder cementitious materials, Case Stud. Constr. Mater., 2024, 20: e02956ChenL.WeiM.LeiN.LiH.Effect of chemical-thermal activation on the properties of recycled fine powder cementitious materialsCase Stud. Constr. Mater.202420e02956Search in Google Scholar
Wang, Y., Lei, L., Hu, X., Liu, Y., Shi, C., Effect of diethanolisopropanolamine and ethyldiisopropylamine on hydration and strength development of Portland cement, Cem. Concr. Res., 2022, 162: 106999WangY.LeiL.HuX.LiuY.ShiC.Effect of diethanolisopropanolamine and ethyldiisopropylamine on hydration and strength development of Portland cementCem. Concr. Res.2022162106999Search in Google Scholar
Huang, H., Li, X., Shen, X., Hydration of ternary cement in the presence of triisopropanolamine, Constr. Build. Mater., 2016, 111: 513–521HuangH.LiX.ShenX.Hydration of ternary cement in the presence of triisopropanolamineConstr. Build. Mater.2016111513521Search in Google Scholar
Wang, J., Ma, B., Tan, H., Du, C., Chu, Z., Luo, Z., et al., Hydration and mechanical properties of cement-marble powder system incorporating triisopropanolamine, Constr. Build. Mater., 2021, 266: 121068WangJ.MaB.TanH.DuC.ChuZ.LuoZ.Hydration and mechanical properties of cement-marble powder system incorporating triisopropanolamineConstr. Build. Mater.2021266121068Search in Google Scholar
Meng, T., Hong, Y., Ying, K., Wang, Z., Comparison of technical properties of cement pastes with different activated recycled powder from construction and demolition waste, Cem. Concr. Compos., 2021, 120: 104065MengT.HongY.YingK.WangZ.Comparison of technical properties of cement pastes with different activated recycled powder from construction and demolition wasteCem. Concr. Compos.2021120104065Search in Google Scholar
Debnath, K., Das, D., Rout, P.K., Effect of mechanical milling of fly ash powder on compressive strength of geopolymer, Mater. Today Proc., 2022, 68: 242–249DebnathK.DasD.RoutP.K.Effect of mechanical milling of fly ash powder on compressive strength of geopolymerMater. Today Proc.202268242249Search in Google Scholar
Das, D., Role of particle size on the mechanical and microstructural properties of fly ash-based geopolymer, Interaction, 2024, 245: 277DasD.Role of particle size on the mechanical and microstructural properties of fly ash-based geopolymerInteraction2024245277Search in Google Scholar
Kumar, S., Mucsi, G., Kristály, F., Pekker, P., Mechanical activation of fly ash and its influence on micro and nano-structural behaviour of resulting geopolymers, Adv. Powder Technol., 2017, 28: 805–813KumarS.MucsiG.KristályF.PekkerP.Mechanical activation of fly ash and its influence on micro and nano-structural behaviour of resulting geopolymersAdv. Powder Technol.201728805813Search in Google Scholar
Nath, S.K., Kumar, S., Role of particle fineness on engineering properties and microstructure of fly ash derived geopolymer, Constr. Build. Mater., 2020, 233: 117294NathS.K.KumarS.Role of particle fineness on engineering properties and microstructure of fly ash derived geopolymerConstr. Build. Mater.2020233117294Search in Google Scholar
