[1] [1] GRDIC Z J, TOPLICIC-CURCIC G A, DESPOTOVIC I M, et al. Properties of self-compacting concrete prepared with coarse recycled concrete aggregate［J］. Construction and Building Materials, 2010, 24(7): 1129-1133.

[2] [2] REVATHI P, SELVI R S, VELIN S S. Investigations on fresh and hardened properties of recycled aggregate self compacting concrete［J］. Journal of the Institution of Engineers (India): Series A, 2013, 94(3): 179-185.

[3] [3] HU J, LEVI SOUZA I, CORTS GENARINI F. Engineering and environmental performance of eco-efficient self-consolidating concrete (Eco-SCC) with low powder content and recycled concrete aggregate［J］. Journal of Sustainable Cement-Based Materials, 2017, 6(1): 2-16.

[4] [4] MALAZDREWICZ S, ADAM OSTROWSKI K, SADOWSKI . Self-compacting concrete with recycled coarse aggregates from concrete construction and demolition waste-current state-of-the art and perspectives［J］. Construction and Building Materials, 2023, 370: 130702.

[5] [5] RABEHI R, RABEHI M, OMRANE M. Physical-mechanical and fresh state properties of self-compacting concrete based on different types of gravel reinforced with steel fibers: experimental study and modeling［J］. Construction and Building Materials, 2023, 390: 131758.

[6] [6] LIU K H, ZHAO X Y, KOU Y W, et al. Compressive stress-strain relationship and its variability of self-compacting concrete incorporating recycled aggregate［J］. Journal of Materials in Civil Engineering, 2023, 35(4): 04023001.

[7] [7] MOU X Y, YU Z H, BAO J W, et al. Workability and mechanical properties of self-compacting recycled concrete: a review［J］. Bulletin of the Chinese Ceramic Society, 2022, 41(5): 1638-1648 (in Chinese).

[8] [8] DA SILVA S R, DE OLIVEIRA ANDRADE J J. A review on the effect of mechanical properties and durability of concrete with construction and demolition waste (CDW) and fly ash in the production of new cement concrete［J］. Sustainability, 2022, 14(11): 6740.

[9] [9] GUO Z G, ZHANG J, JIANG T, et al. Development of sustainable self-compacting concrete using recycled concrete aggregate and fly ash, slag, silica fume［J］. European Journal of Environmental and Civil Engineering, 2022, 26(4): 1453-1474.

[10] [10] CORINALDESI V, MORICONI G. The role of industrial by-products in self-compacting concrete［J］. Construction and Building Materials, 2011, 25(8): 3181-3186.

[11] [11] GUO Z G, JIANG T, ZHANG J, et al. Mechanical and durability properties of sustainable self-compacting concrete with recycled concrete aggregate and fly ash, slag and silica fume［J］. Construction and Building Materials, 2020, 231: 117115.

[12] [12] QIN D Q, ZONG Z Y, DONG C R, et al. Long-term behavior of sustainable self-compacting concrete with high volume of recycled concrete aggregates and industrial by-products［J］. Structural Concrete, 2023, 24(3): 3385-3404.

[13] [13] JAGADESH P, JUAN-VALDS A, GUERRA-ROMERO M I, et al. Effect of design parameters on compressive and split tensile strength of self-compacting concrete with recycled aggregate: an overview［J］. Applied Sciences, 2021, 11(13): 6028.

[14] [14] MARTINEZ-GARCIA R, JAGADESH P, BRDALO-SALCEDO G, et al. Impact of design parameters on the ratio of compressive to split tensile strength of self-compacting concrete with recycled aggregate［J］. Materials, 2021, 14(13): 3480.

[15] [15] TEJAS S, PASLA D. Assessment of mechanical and durability properties of composite cement-based recycled aggregate concrete［J］. Construction and Building Materials, 2023, 387: 131620.

[16] [16] KIM N, KIM J. Effect of maximum aggregate size and powder content on the properties of self-compacting recycled aggregate concrete［J］. Periodica Polytechnica Civil Engineering, 2023: 1038-1047.

[17] [17] LIU J X, LIU P, ZHANG M L, et al. International advances on physical and mechanical properties of fly ash self-compacting concrete［J］. Concrete, 2020(11): 8-11+15 (in Chinese).

[18] [18] GAO S P, LIU Q, HAN T, et al. Review and prospect on basic mechanical properties of recycled self-compacting concrete［J］. Concrete, 2022(5): 69-73 (in Chinese).

[19] [19] REVILLA-CUESTA V, SKAF M, FALESCHINI F, et al. Self-compacting concrete manufactured with recycled concrete aggregate: an overview［J］. Journal of Cleaner Production, 2020, 262: 121362.

[20] [20] LIU H Q, BAI G L, ZHU K F, et al. Experimental study on flexural strength of coal gangue concrete［J］. Journal of Building Materials, 2023, 26(4): 346-352+377 (in Chinese).

[21] [21] General Administration of Quality Supervision, Inspection and Quarantine of the People’s Republic of China, Standardization Administration of the People’s Repub. Technical specification for application of self-compacting concrete: JGJ/T 283—2012 ［S］. Beijing: China Architecture & Building Press, 2012 (in Chinese).

[22] [22] SUA-IAM G, MAKUL N. Recycling prestressed concrete pile waste to produce green self-compacting concrete［J］. Journal of Materials Research and Technology, 2023, 24: 4587-4600.

[23] [23] HUANG W R, GUO G X. Dosage of fly ash on properties of C30 self-compacting concrete［J］. Concrete, 2015(4): 119-122 (in Chinese).

[24] [24] NIKBIN I M, BEYGI M H A, KAZENI M T, et al. A comprehensive investigation into the effect of water to cement ratio and powder content on mechanical properties of self-compacting concrete［J］. Construction and Building Materials, 2014, 57: 69-80.

[25] [25] CHEN Z P, YU X G, KE X J, et al. Experimental study on the flexural strength of recycled aggregate concrete［J］. Concrete, 2010(6): 58-60+120 (in Chinese).

[26] [26] YANG S T, WU Z M. Experimental study on the mechanical performance of self-compacting concrete［J］. Concrete, 2005(1): 33-36+39 (in Chinese).

[27] [27] CAO X C, JIN B H, HOU Y F. Experimental study on the effect of the wrapped slurry recycled coarse aggregate on the mechanical properties and frost resistance of self-compacting concrete［J］. Journal of Civil and Environmental Engineering, 2022, 44(1): 149-159 (in Chinese).