[1] [1] XIAO X W,FENG D K. Review and promoting suggestions of green construction for buildings［J］. Construction Technology,2013,42(1): 12-15 (in Chinese).

[2] [2] QIU B X. Situation and tasks of green building development and building energy saving in China［J］. Urban Studies,2012,19(5): 1-7+11 (in Chinese).

[3] [3] CAO Q,CHENG Y L,WANG X F. Summary of fiber-reinforced self-consolidating concrete［J］. Concrete,2016(1): 123-126 (in Chinese).

[4] [4] OKAMURA H,OUCHI M. Self-compacting concrete［J］. Journal of Advanced Concrete Technology,2003,1(1): 5-15.

[5] [5] LONG W J,LIN H X,CHEN Z R,et al. Mechanical properties between self-compacting concrete and fibers［J］. Concrete,2014(5): 60-63 (in Chinese).

[6] [6] ZHANG K C. Study on the durability of polypropylene-basalt fiber concrete［J］. Non-Metallic Mines,2020,43(5): 45-47+51 (in Chinese).

[7] [7] DING Y N,LIU S G. Study of the flexural and shear toughness of steel fiber reinforced self-compacting concrete［J］. China Civil Engineering Journal,2010,43(11): 55-63 (in Chinese).

[8] [8] ZHOU L Z,LUO Y B,ZHENG Y,et al. Preparation and behaviour of self-compacting concrete with high volume of polypropylene fiber［J］. Bulletin of the Chinese Ceramic Society,2017,36(12): 3971-3977 (in Chinese).

[9] [9] AHMAD J,ZHOU Z G. Mechanical performance of waste marble based self compacting concrete reinforced with steel fiber(partⅠ)［J］. Journal of Building Engineering,2023,78: 107574.

[10] [10] BABU G S,MOHAN R P R. Properties of self compacting concrete using polypropylene fiber［J］. International Journal of Civil Engineering,2016,3(3): 29-36 (in Chinese).

[11] [11] WU Q F,WU Y J,CHEN Q,et al. Mechanical properties of steel-polypropylene hybrid fiber reinforced concrete ［J］. Building Structure,2022,52(supplement 2): 999-1003 (in Chinese).

[12] [12] SHAN L,GONG Y Q,ZHANG L. Experimental study on bonding failure between steel-polypropylene hybrid fiber reinforced concrete and deformed reinforcement［J］. Water Resources and Hydropower Engineering,2020,51(1): 206-213 (in Chinese).

[13] [13] EFNARC. Specification and guidelines for self-compacting concrete［S］. UK: Association House,2002.

[14] [14] General Administration of Quality Supervision,Inspection and Quarantine of the Peoples Republic of China,National Standardization Administration of China. Technical specification for application of self-compacting concrete: JGJ/T 283—2012［S］. Beijing： China Construction Industry Press,2012 (in Chinese).

[15] [15] Ministry of Housing and Urban-Rural Development of the Peoples Republic of China. Standard for test methods of concrete physical and mechanical properties: GB/T 50081—2019［S］. Beijing: China Construction Industry Publishing House,2019 (in Chinese).

[16] [16] WU T,YANG X,LIU X. Properties of self-compacting lightweight concrete reinforced with hybrid steel and polypropylene fibers［J］. Journal of Building Materials,2021,24(2): 268-275+282 (in Chinese).

[17] [17] LI X Y,MA Q Y. Experiment and analysis on properties of hybrid fiber reinforced self-compacting concrete［J］. Science Technology and Engineering,2019,19(24): 359-364 (in Chinese).

[18] [18] DONG X P,LI H Y,ZOU C X. Experimental study on mechanical properties of hybrid fibers light-weight aggregate concrete［J］. Bulletin of the Chinese Ceramic Society,2014,33(11): 3026-3031 (in Chinese).

[19] [19] ZHAO Y R,HAO S,GAO M B,et al. Research of steel fiber self-compacting concrete workability and compressive strength［J］. Construction Technology,2017,46(3): 61-64+79 (in Chinese).

[20] [20] SONG J J,CHEN J P,XIAO Z H,et al. Preparation and mechanical properties of polypropylene fiber/steel fiber/concrete composites［J］. Plastics Science and Technology,2022,50(9): 68-74 (in Chinese).

[21] [21] LV Y F,YANG Y D. Experimental study on freeze-thaw performance of hybrid fiber reinforced self-compacting concrete［J］. China Concrete and Cement Products,2020(11): 52-56 (in Chinese).

[22] [22] MO J X,ZENG L,GUO F,et al. Effect of rubber powder on mechanical properties and microstructure of polypropylene fiber reinforced concrete［J］. Journal of Building Materials,2020,23(5): 1222-1229 (in Chinese).

[23] [23] ZHAO Y M,ZHANG M F,ZHANG Z,et al. Performance of hybrid fiber reinforced high-strength concrete［J］. Bulletin of the Chinese Ceramic Society,2022,41(7): 2299-2307 (in Chinese).

[24] [24] XIA D T,ZHENG Z,WU H. Experimental research on splitting tensile property between steel-polypropylene HFRC and existing concrete［J］. Concrete,2022(9): 132-136 (in Chinese).

[25] [25] ZHANG Z L. Experimental study on mechanical properties of basalt-cellulose hybrid fiber reinforced concrete［J］. Fiber Reinforced Plastics/Composites,2019(6): 43-48 (in Chinese).

[26] [26] WU H L,ZHANG Y,HE S. Study on crack resistance of steel-basalt hybrid fiber reinforced concrete［J］. Journal of Huazhong University of Science and Technology (Natural Science Edition),2023,51(7): 98-103 (in Chinese).

[27] [27] WANG Z J,XU C,XU J X,et al. Study on durability and hybrid effect of hybrid fiber reinforced concrete［J］. China Concrete and Cement Products,2019(11): 53-56 (in Chinese).

[28] [28] HUO J F,BAI X X,JIANG P F,et al. Research on mechanical properties of steel fiber and polypropylene fiber recycled concrete［J］. Concrete,2019(8): 92-95+99 (in Chinese).

[29] [29] JIN B H,ZHENG C L,HOU Y F,et al. Orthogonal experimental study on the mechanical properties of polypropylene-steel fiber/recycled coarse aggregate concrete［J］. Journal of Functional Materials,2021,52(12): 12175-12183 (in Chinese).

[30] [30] XU Y,DING J F,LIU J X,et al. Splitting stress-strain curves and failure mechanism of rubber-steel fiber concrete［J］. Concrete,2023(8): 72-76+86 (in Chinese).

[31] [31] XU L H,MEI G D,HUANG L,et al. Study on uniaxial tensile stress-strain relationship of steel-polypropylene hybrid fiber reinforced concrete［J］. China Civil Engineering Journal,2014,47(7): 35-45 (in Chinese).

[32] [32] YUAN P,ZHU Y S. Compressive strength test and energy characteristics analysis of alkali slag ceramsite concrete at different ages［J］. Bulletin of the Chinese Ceramic Society,2022,41(7): 2292-2298 (in Chinese).

[33] [33] WANG X,HUANG L Q,QIN W H,et al. Experimental study on mechanical properties of hybrid fiber-reinforced manufactured sand concrete［J］. Industrial Construction,2023,53(7): 199-208 (in Chinese).

[34] [34] CHEN J,KANG J J,LIANG X X,et al. Effect of ceramic fiber and steel fiber on mechanical properties of light aggregate concrete［J］. Building Science,2023,39(9): 104-113 (in Chinese).

[35] [35] WANG Y,ZHAO K Y,SONG Z P,et al. Research progress of steel-polypropylene hybrid fiber reinforced concrete［J］. Bulletin of the Chinese Ceramic Society,2015,34(7): 1885-1890 (in Chinese).