Experimental study on deformation of concrete for shotcrete use in high geothermal tunnel environments |
Cui, Shengai
(Department of Building Materials, School of Civil Engineerng, Southwest Jiaotong University)
Liu, Pin (Department of Bridge Engineering, School of Civil Engineering, Southwest Jiaotong University) Wang, Xuewei (Department of Bridge Engineering, School of Civil Engineering, Southwest Jiaotong University) Cao, Yibin (Department of Building Materials, School of Civil Engineerng, Southwest Jiaotong University) Ye, Yuezhong (Department of Building Materials, School of Civil Engineerng, Southwest Jiaotong University) |
1 | Chen, G.Q., Li, T.B., Zhang, G.F., Yin, H.Y. and Zhang, H. (2014), "Temperature effect of rock burst for hard rock in deep-buried tunnel", Nat. Haz., 72(2), 915-926. DOI |
2 | Cui, S.A., Li, J.W., Ye, Y.Z. and Yang, H.Y. (2013), "Bond strength of shotcrete with rock in dry and hot environment of high ground temperature tunnel", J. Build. Mater., 16(4), 663-666. |
3 | Cui, S.A., Zhu, B., Li, F.H. and Ye, Y.Z. (2016), "Experimental study on bond performance between shotcrete and rock in hot and humid tunnel environment", KSCE J. Civil Eng., 20(4), 1385-1391. DOI |
4 | GB50086 (2001), Specifications for Bolt-Shotcrete Support, Beijing, China. |
5 | Gu, B.S. (2007), "Counter measures against high temperature in a tunnel and the corresponding ventilation design-feasibility study for the super-long gaoligongshan tunnel", Mod. Tunnel. Technol., 44(2), 66-71. |
6 | He, M.C. (2009), "Application of HEMS cooling technology in deep mine heat hazard control", Min. Sci. Techonol., 19(3), 269-275. |
7 | Hochstein, M.P. and Prebble, W.M. (2006), "Major engineering constructions on top of a high-temperature geothermal system: Problems encountered at Tokaanu", Geotherm., 35(4), 428-447. DOI |
8 | Leung, C.K., Lai, R. and Lee, A.Y.F. (2005), "Properties of wetmixed fiber reinforced shotcrete and fiber reinforced concrete with similar composition", Cement Concrete Res., 35(4), 788-795. DOI |
9 | Li, X.Q. and Dai, L.X. (2011), "Cooling technology for construction of high earth temperature section of a diversion tunnel", Wat. Res. Hydropow. Eng., 42(2), 36-41. |
10 | Ministry of Housing and Urban-Rural Development of the People's Republic of China GB/T 50082 (2009), Standard for Test Methods of Long-Term Performance and Durability of Ordinary Concrete, China Architecture & Building Press, Beijing, China. |
11 | Su, H. (2014), "Hydropower tunnel in high geothermal condition: Influences of high ground temperature and countermeasures", Tunn. Constr., 34(4), 351-355. |
12 | Tang, Y., Su, H., Zhang, H., Ma, Q.J. and Jiang, T. (2015), "Cohesive strength and micro failure mechanism of high geothermal diversion tunnel shotcrete surrounding rock", Wat. Res. Pow., 33(4), 127-129. |
13 | Wilhelm, J. and Rybach, L. (2003), "The geothermal potential of Swiss alpine tunnels", Geotherm., 32(4), 557-568. DOI |
14 | Yang, X.L. (2013), "Research on geothermal anomaly characteristics and control measures for Jiwoxiga tunnel on lasa-shigatse railway", Rail. Stand. Des., 58(7), 107-111. |
15 | Zhao, G.B., Li, G.Y.S., Qu, Z.Y. and Hu, X.B. (2014), "Particular engineering geological problems of diversion tunnel of qirehataer water power station", Res. Environ. Eng., 28(4), 411-413. |
16 | Zhao, T.X. and Yan, M.F. (2001), "Temperature lowering technique for hot water with high pressure in Heibaishui laddershaped power station tunnel", Mod. Tunnel. Technol., 38(3), 48-51. |
17 | Hou, D.P., Liu, N.F., Yu, C.M. and Li, N. (2013), "Discussion on design and construction measures for a rock tunnel in hightemperature conditions", Chin. J. Rock Mech. Eng., 32(2), 3396-3402. |