Abstract
To investigate the failure behaviour of the stress concentration areas of deeply buried hard rock tunnels, model tests under uniaxial and biaxial loading conditions and a single-free-face true triaxial compression (TTC) test were carried out on Beishan granite. The failure forms of the specimens under the above three loading conditions are different: under the first loading condition, the model specimen was prone to tensile fracturing at the tensile stress concentration the at top and bottom of the hole, which is similar to splitting along a road tunnel; under the second loading condition, the sidewall of the model specimen was progressively damaged and ultimately formed breakout notches, which is similar to spalling failure in deep engineering; under the third loading condition, the prismatic specimen underwent a slight strain burst. Since the failure of the specimen under the latter two loading conditions was induced by compressive stress concentrations, the reasons for the difference in the failure behaviours of the specimens in these two types of tests were discussed. It was found that the intrinsic potential energy (Wbk) of the rock determines the failure form of the specimen. For rock model tests with lateral stress, rock with a high Wbk fails by strain bursting, and rock with a low Wbk fails by spalling. However, for intact rock specimens under single-free-face TTC, a low Wbk can induce strain bursts. The outcome of this research could be applied to rock failure behaviour analysis around underground excavations in deep hard rock engineering.
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References
Carter BJ (1992) Size and stress gradient effects on fracture around cavities. Rock Mech Rock Eng 25:167–186
Cheon DS, Jeon S, Park C, Song WK, Park ES (2011) Characterization of brittle failure using physical model experiments under polyaxial stress conditions. Int J Rock Mech Min Sci 48(1):152–160
Cook NGW (1963) The basic mechanics of rockbursts. J South Afr Inst Min Metall 64(3):71–81
Du K, Tao M, Li XB, Zhou J (2016) Experimental study of slabbing and rockburst induced by true-triaxial unloading and local dynamic disturbance. Rock Mech Rock Eng 49:3437–3453
Fairhurst C, Cook NGW (1966) The phenomenon of rock splitting parallel to the direction of maximum compression in the neighborhood of a surface. In: Proceedings of the 1st Congress of the International Society of Rock Mechanics. Lisbon, Portugal, pp 687–692
Fairhurst CE, Hudson JA (1999) Draft ISRM suggested method for the complete stress-strain curve for intact rock in uniaxial compression. Int J Rock Mech Min Sci 36(3):281–289
Fakhimi A, Carvalho F, Ishida T, Labuz JF (2002) Simulation of failure around a circular opening in rock. Int J Rock Mech Min Sci 39(4):507–515
Feng XT, Haimson B, Li XC, Chang CD, Ma XD, Zhang X, Ingraham M, Suzuki K (2019) ISRM suggested method: determining deformation and failure characteristics of rocks subjected to true triaxial compression. Rock Mech Rock Eng 52:2011–2020
Gong FQ, Luo Y, Li XB, Si XF, Tao M (2018) Experimental simulation investigation on rockburst induced by spalling failure in deep circular tunnels. Tunn Undergr Space Technol 81:413–427
Gong FQ, Luo Y, Liu DQ (2019) Simulation tests on spalling failure in deep straight-wall-top-arch tunnels. Chin J Geotech Eng 241:1091–1100
Gong FQ, Wu WX, Li TB (2020) Simulation test of spalling failure of surrounding rock in rectangular tunnels with different height-to-width ratios. Bull Eng Geol Environ 79:3207–3219
Haimson B, Chang C (2000) A new true triaxial cell for testing mechanical properties of rock, and its use to determine rock strength and deformability of Westerly granite. Int J Rock Mech Min Sci 37:285–296
Haimson B, Lee H (2004) Borehole breakouts and compaction bands in two high-porosity sandstones. Int J Rock Mech Min Sci 41:287–301
He BG, Zelig R, Hatzor YH, Feng XT (2016) Rockburst generation in discontinuous rock masses. Rock Mech Rock Eng 49:4103–4124
He M, Li J, Liu D, Lin K, Ren F (2021) A novel true triaxial apparatus for simulating strain bursts under high stress. Rock Mech Rock Eng 54:759–775
He M, Xia H, Jia X, Gong W, Zhao F, Liang K (2012) Studies on classification, criteria and control of rockbursts. J Rock Mech Geotech Eng 4(2):97–114
He MC, Zhao F, Cai M, Du S (2015) A novel experimental technique to simulate pillar burst in laboratory. Rock Mech Rock Eng 48:1833–1848
Hu XC, Su GS, Chen GY, Mei SM, Feng XT, Mei GX, Huang XH (2019) Experiment on rockburst process of borehole and its acoustic emission characteristics. Rock Mech Rock Eng 52:783–832
Jiang B, Gu S, Wang L, Zhang G, Li W (2019) Strainburst process of marble in tunnel-excavation-induced stress path considering intermediate principal stress. J Central South Univ 26(4):984–999
Kusui A, Villaescusa E, Funatsu T (2016) Mechanical behaviour of scaled-down unsupported tunnel walls in hard rock under high stress. Tunn Undergr Space Technol 60:30–40
Li CC, Zhao TB, Zhang YB, Wan WK (2022) A study on the energy sources and the role of the surrounding rock mass in strain burst. Int J Rock Mech Min Sci 154:105114
Li X, Du K, Li D (2015) True triaxial strength and failure modes of cubic rock specimens with unloading the minor principal stress. Rock Mech Rock Eng 48:2185–2196
Lin H, Oh J, Canbula I, Stacey TR (2020) Experimental and analytical investigations of the effect of hole size on borehole breakout geometries for estimation of in situ stresses. Rock Mech Rock Eng 53:781–798
Lu J, Yin GZ, Zhang DM, Li X, Huang G, Gao H (2021) Mechanical properties and failure mode of sandstone specimen with a prefabricated borehole under true triaxial stress condition. Geomech Energy Environ 25:100207
Luo Y, Gong F, Liu D, Wang S, Si X (2019) Experimental simulation analysis of the process and failure characteristics of spalling in D-shaped tunnels under true-triaxial loading conditions. Tunn Undergr Space Technol 90:42–61
Martin CD (1997) Seventeenth Canadian geotechnical colloquium: the effect of cohesion loss and stress path on brittle rock strength. Can Geotech J 34(5):698–725
Martin CD, Kaiser PK, Mccreath DR (1999) Hoek-Brown parameters for predicting the depth of brittle failure around tunnels. Can Geotech J 36(1):136–151
Mogi K (1967) Effect of the intermediate principal stress on rock failure. J Geophys Res 72(20):5117–5131
Ohta Y, Aydan Ö (2010) The dynamic responses of geo-materials during fracturing and slippage. Rock Mech Rock Eng 43:727–740
Peng JY, Zhang FP, Yan GL, Qiu ZG, Dai XH (2019) Experimental study on rock-like materials fragmentation by electric explosion method under high stress condition. Powder Technol 356:750–758
Read RS (2004) 20 years of excavation response studies at AECL’s Underground Research Laboratory. Int J Rock Mech Min Sci 41(8):1251–1275
Sagong M, Park D, Yoo J, Lee JS (2011) Experimental and numerical analyses of an opening in a jointed rock mass under biaxial compression. Int J Rock Mech Min Sci 48(7):1055–1067
Shi L, Li CC, Zhang X, Feng XT (2023a) Experimental verification of the intrinsic strainburst proneness of various rock types. Bull Eng Geol Environ 82(4):119
Shi L, Li CC, Zhang X, Feng XT, Wang G (2022) Strength characteristics of brittle rocks under multi-stage intermediate principal stress loading. Géotech Lett 12(2):101–105
Shi L, Zhang X, Sharifzadeh M, Qi Z, Li Y, Xu Q (2023b) Experimental study on the relationship between local deformation and macro-crack evolution of granite under conventional triaxial compression. Eur J of Environ and Civ Eng 27(5):2210–2227
Si X, Li X, Gong F, Huang L, Ma C (2022) Experimental investigation on rockburst process and characteristics of a circular opening in layered rock under three-dimensional stress conditions. Tunn Undergr Space Technol 127:104603
Si XF, Huang LQ, Gong FQ, Liu XL, Li XB (2020) Experimental investigation on influence of loading rate on rockburst in deep circular tunnel under true-triaxial stress condition. J Central South Univ 27(10):2914–2929
Su G, Feng X, Wang J, Jiang J, Hu L (2017a) Experimental study of remotely triggered rockburst induced by a tunnel axial dynamic disturbance under true-triaxial conditions. Rock Mech Rock Eng 50:2207–2226
Su GS, Hu LH, Feng XT (2018) True triaxial experimental study of rockbursts induced by ramp and cyclic dynamic disturbances. Rock Mech Rock Eng 51:1027–1045
Su GS, Jiang JQ, Zhai SB (2017b) Influence of tunnel axis stress on strainburst: an experimental study. Rock Mech Rock Eng 50:1551–1567
Tarasov BG, Potvin Y (2012) Absolute, relative and intrinsic rock brittleness at compression. Min Technol 121(4):218–225
Von Karman T (1911) Festigkeitsversuche unter allseitigem. Druck Zeitschr Ver Dentsch Ing 55:1749–1757
Wan W, Li CC (2022) Microscopic and acoustic interpretations of the physics of rock burst and the difference in fracturing patterns in class I and class II rocks. Rock Mech Rock Eng 55(11):6841–6862
Wang Y, He M, Liu D, Ling K, Reng F (2021) Experimental study on impact rockburst of surrounding rock in deep elliptical caverns. Chin J Rock Mech Eng 40(11):2214–2228
Zhang H, Li CC (2019) Effects of confining stress on the post-peak behaviour and fracture angle of Fauske marble and Iddefjord granite. Rock Mech Rock Eng 52:1377–1385
Zhang YB, Liang P, Yao XL, Sun L, Tian BZ, Liu XX (2020) Experimental study of energy and frequency characteristics of acoustic emissions induced from tensile and shear cracks in tunnel rockburst process. Eur J Environ Civ Eng 26(9):3961–3980
Zhao H, Liu C, Huang G, Yu B, Liu Y, Song Z (2020) Experimental investigation on rockburst process and failure characteristics in trapezoidal tunnel under different lateral stresses. Construction and Building Materials 259:119530
Zhao T, Zhang Y, Li CC (2021) Radial stiffness of rock bolt samples and required thickness of the steel tube in impact tests. Int J Rock Mech Min Sci 146:104886
Zhao XG, Cai M (2014) Influence of specimen height-to-width ratio on the strainburst characteristics of Tianhu granite under true-triaxial unloading conditions. Can Geotech J 52(7):890–902
Zhong Z, Deng R, Lv L, Fu X, Yu J (2018) Fracture mechanism of naturally cracked rock around an inverted U-shaped opening in a biaxial compression test. Int J Rock Mech Min Sci 103:242–253
Zhu Q, Li D, Han Z, Xiao P, Li B (2022) Failure characteristics of brittle rock containing two rectangular holes under uniaxial compression and coupled static-dynamic loads. Acta Geotech 17:131–152
Acknowledgements
The authors thank Prof. Charlie C. Li at Norwegian University of Science and Technology for his improvements to the paper.
Funding
It is acknowledged that the tests were financially supported by the National Key R&D Program of China under Grant No. 2018YFC0407006 and the 111 Project under Grant No. B17009.
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Shi, L., Zhang, X. An experimental investigation on the failure behaviour of surrounding rock in the stress concentration area of deeply buried tunnels. Bull Eng Geol Environ 82, 435 (2023). https://doi.org/10.1007/s10064-023-03452-5
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DOI: https://doi.org/10.1007/s10064-023-03452-5