[1] [1] REN C C. Experimental study on mechanical properties of steel fiber reinforced shotcrete and its application in tunnel engineering［J］. Journal of Water Resources and Architectural Engineering, 2017, 15(6): 189-193 (in Chinese).

[2] [2] LIU Z, JIANG Y H, YANG Y. Study on design standard and application of early high strength shotcrete in railway tunnel［J］. Modern Tunnelling Technology, 2022, 59(6): 232-238+249 (in Chinese).

[3] [3] THOMAS A, DE BATTISTA N, ELSHAFIE M, et al. Back-analysis of sprayed concrete lined (SCL) tunnel junctions at liverpool street crossrail station［J］. Tunnelling and Underground Space Technology, 2023, 141: 105391.

[4] [4] HAN S Y. Review on durability of tunnel concrete lining structure in cold region［J］. China Concrete and Cement Products, 2021(3): 24-27 (in Chinese).

[5] [5] TONG Y P, WANG Y, ZHANG S H. Research progress on mechanical properties and durability properties of tunnel lining fiber reinforced concrete［J］. Journal of Materials Science and Engineering, 2022, 40(3): 528-536 (in Chinese).

[6] [6] HU Z J, WANG Q B, LV H, et al. Improved mechanical and macro-microscopic characteristics of shotcrete by incorporating hybrid alkali-resistant glass fibers［J］. Construction and Building Materials, 2023, 403: 133131.

[7] [7] XU C D, HUANG S, LI H F, et al. Damage of mechanical properties of basalt fiber reinforced concrete under salt freezing［J］. Bulletin of the Chinese Ceramic Society, 2021, 40(3): 812-820 (in Chinese).

[8] [8] 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).

[9] [9] JIAO H Z, HAN Z Y, CHEN X M, et al. Influence mechanism of basalt fibre on the toughness and microstructure of spray concrete［J］. Acta Materiae Compositae Sinica, 2019, 36(8): 1926-1934 (in Chinese).

[10] [10] GUO L P, ZHANG W X, SUN W, et al. Durability of cellulose fiber reinforced concrete under bending load in tunnel engineering［J］. Journal of Southeast University (Natural Science Edition), 2016, 46(3): 612-618 (in Chinese).

[11] [11] LI M, GONG F, WU Z S. Study on mechanical properties of alkali-resistant basalt fiber reinforced concrete［J］. Construction and Building Materials, 2020, 245: 118424.

[12] [12] SMARZEWSKI P. Influence of basalt-polypropylene fibres on fracture properties of high performance concrete［J］. Composite Structures, 2019, 209: 23-33.

[13] [13] ZHAO Z, QU L Y, MA L L. Work performance and mechanical properties of PVA-cellulose hybrid fiber reinforced concrete［J］. Concrete, 2017(10): 93-95 (in Chinese).

[14] [14] YUAN Z, JIA Y M. Mechanical properties and microstructure of glass fiber and polypropylene fiber reinforced concrete: an experimental study［J］. Construction and Building Materials, 2021, 266: 121048.

[15] [15] CUI K, XU L H, CHI Y. Fatigue deformation of steel-polypropylene hybrid fiber reinforced concrete under constant-amplitude cyclic compression［J］. Journal of Building Materials, 2023, 26(7): 755-761 (in Chinese).

[16] [16] HU J R, HE R, LI Y P. Analysis of mechanical properties of concrete mixed with hybrid synthetic fiber［J］. Journal of South China University of Technology (Natural Science Edition), 2015, 43(10): 16-22 (in Chinese).

[17] [17] ZHAO Y M, ZHANG M F, ZHANG Z, et al. Study on properties of hybrid fiber reinforced high strength concrete［J］. Bulletin of the Chinese Ceramic Society, 2022, 41(7): 2299-2307 (in Chinese).

[18] [18] LIU R Q, ZHAO S, SUN S H, et al. Experimental study of the mechanical properties and microstructure of basalt fiber-reinforced concrete［J］. Journal of Materials in Civil Engineering, 2023, 35(7): 4023205.

[19] [19] ZHANG H A, WANG L, BAI L Y, et al. Research on the impact response and model of hybrid basalt-macro synthetic polypropylene fiber reinforced concrete［J］. Construction and Building Materials, 2019, 204: 303-316.

[20] [20] WEI Y M, CHAI J R, QIN Y A, et al. Effect of fly ash on mechanical properties and microstructure of cellulose fiber-reinforced concrete under sulfate dry-wet cycle attack［J］. Construction and Building Materials, 2021, 302: 124207.

[21] [21] 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).

[22] [22] LI Z Y, LIU Y X, YAO Z H, et al. Mechanical damage model for concrete based on energy dissipation［J］. China Civil Engineering Journal, 2019, 52(supplement 1): 23-30 (in Chinese).

[23] [23] FU Q, ZHAO X, HE J Q, et al. Constitutive response of hybrid basalt-polypropylene fiber-reinforced concrete based on energy conversion principle［J］. Journal of the Chinese Ceramic Society, 2021, 49(8): 1670-1682 (in Chinese).

[24] [24] XU Y, LIU J X, YANG R Z, et al. Mechanical properties and energy evolution of ultra high strength rubber concrete［J］. Journal of Building Materials, 2023, 26(6): 612-622 (in Chinese).

[25] [25] ZHOU R H, CHENG H A, LI M J, et al. Energy evolution analysis and brittleness evaluation of high-strength concrete considering the whole failure process［J］. Crystals, 2020, 10(12): 1099.

[26] [26] LI X L, ZHAO Q C, LI W G, et al. Influence mechanism of coal-series metakaolin on mechanical properties and microstructure of concrete［J］. Bulletin of the Chinese Ceramic Society, 2023, 42(9): 3221-3230 (in Chinese).

[27] [27] CHEN J H, LI Y L, ZHOU H, et al. Effect of low temperature and low humidity curing condition on microstructure of concrete［J］. Journal of the Chinese Ceramic Society, 2023, 51(5): 1202-1209 (in Chinese).

[28] [28] GUO Y C, LIU H C, SHEN A Q, et al. Toughness characteristics and attenuation law of basalt fiber bridge concrete［J］. Journal of Chang’an University (Natural Science Edition), 2023, 43(2): 89-99 (in Chinese).

[29] [29] LEE S W, KIM G W, OH T, et al. The microstructure and mechanical properties of cementless ultra-high-performance alkali activated concrete considering geometrical properties of steel fiber［J］. Cement and Concrete Composites, 2023, 142: 105209.