Afroughsabet V, Biolzi L, Ozbakkaloglu T (2017) Influence of double hooked-end steel fibers and slag on mechanical and durability properties of high performance recycled aggregate concrete. Compos Struct 181:273–284
Ali B, Kurda R, Ahmed H, Alyousef R (2022) Effect of recycled tyre steel fiber on flexural toughness, residual strength, and chloride permeability of high-performance concrete (HPC). J Sustain Cem Mater 1–17. https://doi.org/10.1080/21650373.2021.2025165
Ali B, Kurda R, Herki B, et al (2020a) Effect of Varying Steel Fiber Content on Strength and Permeability Characteristics of High Strength Concrete with Micro Silica. Materials (Basel) 13:5739
Ali B, Qureshi LA (2019a) Influence of glass fibers on mechanical and durability performance of concrete with recycled aggregates. Constr Build Mater 228:116783. https://doi.org/10.1016/j.conbuildmat.2019.116783
Ali B, Qureshi LA (2019b) Durability of recycled aggregate concrete modified with sugarcane molasses. Constr Build Mater 229:116913. https://doi.org/https://doi.org/10.1016/j.conbuildmat.2019.116913
Ali B, Qureshi LA, Khan SU (2020b) Flexural behavior of glass fiber-reinforced recycled aggregate concrete and its impact on the cost and carbon footprint of concrete pavement. Constr Build Mater 262:120820. https://doi.org/10.1016/j.conbuildmat.2020.120820
Alrshoudi F, Mohammadhosseini H, Alyousef R, et al (2020) Sustainable use of waste polypropylene fibers and palm oil fuel ash in the production of novel prepacked aggregate fiber-reinforced concrete. Sustainability 12:4871
Alshkane YM, Rafiq SK, Boiny HU (2017) Correlation between destructive and non-destructive tests on the mechanical properties of different cement mortar mixtures incorporating polyethylene terephthalate fibers. Sulaimania J Eng Sci 4:
ASTM-C150 (2018) Standard Specification for Portland Cement. ASTM International, West Conshohocken, PA, USA
ASTM-C948 (2016) Standard Test Method for Dry and Wet Bulk Density, Water Absorption, and Apparent Porosity of Thin Sections of Glass-Fiber Reinforced Concrete
Baricevic A, Pezer M, Rukavina MJ, et al (2018) Effect of polymer fibers recycled from waste tires on properties of wet-sprayed concrete. Constr Build Mater 176:135–144
Bui NK, Satomi T, Takahashi H (2018) Recycling woven plastic sack waste and PET bottle waste as fiber in recycled aggregate concrete: An experimental study. Waste Manag 78:79–93
Casals XG (2006) Analysis of building energy regulation and certification in Europe: Their role, limitations and differences. Energy Build 38:381–392
Das CS, Dey T, Dandapat R, et al (2018) Performance evaluation of polypropylene fibre reinforced recycled aggregate concrete. Constr Build Mater 189:649–659
Domski J, Katzer J, Zakrzewski M, Ponikiewski T (2017) Comparison of the mechanical characteristics of engineered and waste steel fiber used as reinforcement for concrete. J Clean Prod 158:18–28
EIA (2022) How much carbon dioxide is produced per kilowatthour of U.S. electricity generation? US Energy Inf Adm
Freedonia-Group (2016) Global Construction Aggregates - Demand and Sales Forecasts, Market Share, Market Size, Market Leaders
GIT (2022) Shredder Pro information
Kazmi SMS, Munir MJ, Wu Y-F, et al (2019) Axial stress-strain behavior of macro-synthetic fiber reinforced recycled aggregate concrete. Cem Concr Compos 97:341–356. https://doi.org/https://doi.org/10.1016/j.cemconcomp.2019.01.005
Kazmi SMS, Munir MJ, Wu Y-F, Patnaikuni I (2018) Effect of macro-synthetic fibers on the fracture energy and mechanical behavior of recycled aggregate concrete. Constr Build Mater 189:857–868. https://doi.org/https://doi.org/10.1016/j.conbuildmat.2018.08.161
Kizilkanat AB, Kabay N, Akyüncü V, et al (2015) Mechanical properties and fracture behavior of basalt and glass fiber reinforced concrete: An experimental study. Constr Build Mater 100:218–224
Kou S, Poon C, Agrela F (2011) Comparisons of natural and recycled aggregate concretes prepared with the addition of different mineral admixtures. Cem Concr Compos 33:788–795
Koushkbaghi M, Kazemi MJ, Mosavi H, Mohseni E (2019) Acid resistance and durability properties of steel fiber-reinforced concrete incorporating rice husk ash and recycled aggregate. Constr Build Mater 202:266–275
Kurda R, de Brito J, Silvestre JD (2017) Influence of recycled aggregates and high contents of fly ash on concrete fresh properties. Cem Concr Compos 84:198–213
Kurda R, de Brito J, Silvestre JD (2019) Water absorption and electrical resistivity of concrete with recycled concrete aggregates and fly ash. Cem Concr Compos 95:169–182
Kurda R, Silvestre JD, de Brito J (2018) Life cycle assessment of concrete made with high volume of recycled concrete aggregates and fly ash. Resour Conserv Recycl 139:407–417
Lippiatt BC (2007) Bees 4.0: Building for environmental and economic sustainability. technical manual and user guide
MatWeb (2021) Overview of materials for Nylon 6 Fiber
Neville A, Aitcin P-C (1998) High performance concrete—An overview. Mater Struct 31:111–117
Orasutthikul S, Unno D, Yokota H (2017) Effectiveness of recycled nylon fiber from waste fishing net with respect to fiber reinforced mortar. Constr Build Mater 146:594–602
Qureshi LA, Ali B, Ali A (2020) Combined effects of supplementary cementitious materials (silica fume, GGBS, fly ash and rice husk ash) and steel fiber on the hardened properties of recycled aggregate concrete. Constr Build Mater 263:120636. https://doi.org/10.1016/j.conbuildmat.2020.120636
Sasanipour H, Aslani F, Taherinezhad J (2021) Chloride ion permeability improvement of recycled aggregate concrete using pretreated recycled aggregates by silica fume slurry. Constr Build Mater 270:121498
Wang W, Meng L, Leng K, Huang Y (2017) Hydrolysis of waste monomer casting nylon catalyzed by solid acids. Polym Degrad Stab 136:112–120
Yin J, Wu W (2018) Utilization of waste nylon wire in stone matrix asphalt mixtures. Waste Manag 78:948–954
Yunchao T, Zheng C, Wanhui F, et al (2021) Combined effects of nano-silica and silica fume on the mechanical behavior of recycled aggregate concrete. Nanotechnol Rev 10:819–838