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Rock Mechanics and Rock Engineering

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29.01.2018 | Original Paper

An Analytical Model for Two-Order Asperity Degradation of Rock Joints Under Constant Normal Stiffness Conditions

verfasst von: Yingchun Li, Wei Wu, Bo Li

Erschienen in: Rock Mechanics and Rock Engineering | Ausgabe 5/2018

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Abstract

Jointed rock masses during underground excavation are commonly located under the constant normal stiffness (CNS) condition. This paper presents an analytical formulation to predict the shear behaviour of rough rock joints under the CNS condition. The dilatancy and deterioration of two-order asperities are quantified by considering the variation of normal stress. We separately consider the dilation angles of waviness and unevenness, which decrease to zero as the normal stress approaches the transitional stress. The sinusoidal function naturally yields the decay of dilation angle as a function of relative normal stress. We assume that the magnitude of transitional stress is proportionate to the square root of asperity geometric area. The comparison between the analytical prediction and experimental data shows the reliability of the analytical model. All the parameters involved in the analytical model possess explicit physical meanings and are measurable from laboratory tests. The proposed model is potentially practicable for assessing the stability of underground structures at various field scales.

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Asadollahi P, Tonon F (2010) Constitutive model for rock fractures: revisiting Barton’s empirical model. Eng Geol 113(1):11–32CrossRef

Bahaaddini M, Hagan P, Mitra R, Hebblewhite B (2014) Scale effect on the shear behaviour of rock joints based on a numerical study. Eng Geol 181:212–223CrossRef

Barton N (1982) Modelling rock joint behaviour from in situ block tests: implications for nuclear waste repository design. Technical report, Terra Tek Inc, Salt Lake City, UT (USA)

Barton N (1973) Review of a new shear-strength criterion for rock joints. Eng Geol 7(4):287–332CrossRef

Barton N (1976) The shear strength of rock and rock joints. Int J Rock Mech Min 13(9):255–279CrossRef

Barton N, Choubey V (1977) The shear strength of rock joints in theory and practice. Rock Mech 10(1–2):1–54CrossRef

Beer A, Stead D, Coggan J (2002) Estimation of the joint roughness coefficient (JRC) by visual comparison. Rock Mech Rock Eng 35(1):65–74CrossRef

Byerlee J (1978) Friction of rocks. Pure Appl Geophys 116(4):615–626CrossRef

Dight P, Chiu H (1981) Prediction of shear behaviour of joints using profiles. Int J Rock Mech Min 18(5):369–386CrossRef

Flamand R (2000) Validation of a model of mechanical behavior for rock fractures in shear. Ph.D. thesis, University of Quebec, Chicoutimi (in French)

Ge Y, Kulatilake P, Tang H, Xiong C (2014) Investigation of natural rock joint roughness. Comput Geotech 55:290–305CrossRef

Gerrard C (1986) Shear failure of rock joints: appropriate constraints for empirical relations. Int J Rock Mech Min 23(6):421–429CrossRef

Grasselli G, Egger P (2003) Constitutive law for the shear strength of rock joints based on three-dimensional surface parameters. Int J Rock Mech Min 40(1):25–40CrossRef

Haberfield C, Johnston I (1994) A mechanistically-based model for rough rock joints. Int J Rock Mech Min 31(4):279–292CrossRef

Haque A (1999) Shear behaviour of soft rock joints under constant normal stiffness. Ph.D. thesis, University of Wollongong

Heuze F (1979) Dilatant effects of rock joints. In: Proceedings of the 4th ISRM Congress, Montreux, Switzerland, pp 169–176

Homand F, Belem T, Souley M (2001) Friction and degradation of rock joint surfaces under shear loads. Int J Numer Anal Methods 25(10):973–999CrossRef

Hong E, Lee J, Lee I (2008) Underestimation of roughness in rough rock joints. Int J Numer Anal Methoda 32(11):1385–1403CrossRef

Hossaini K, Babanouri N, Nasab S (2014) The influence of asperity deformability on the mechanical behavior of rock joints. Int J Rock Mech Min 70:154–161

Indraratna B, Haque A, Aziz N (1999) Shear behaviour of idealized infilled joints under constant normal stiffness. Géotechnique 49(3):331–355CrossRef

Indraratna B, Thirukumaran S, Brown E, Zhu S (2015) Modelling the shear behaviour of rock joints with asperity damage under constant normal stiffness. Rock Mech Rock Eng 48(1):179–195CrossRef

Itasca (2011) UDEC (Universal Distinct Element), Version 5.0. Itasca, Minneapolis

Jiang Y, Xiao J, Tanabashi Y, Mizokami T (2004) Development of an automated servo-controlled direct shear apparatus applying a constant normal stiffness condition. Int J Rock Mech Min 41(2):275–286CrossRef

Jiang Y, Li B, Tanabashi Y (2006) Estimating the relation between surface roughness and mechanical properties of rock joints. Int J Rock Mech Min 43(6):837–846CrossRef

Jing L, Stephansson O, Nordlund E (1993) Study of rock joints under cyclic loading conditions. Rock Mech Rock Eng 26(3):215–232CrossRef

Kulatilake P, Um J, Panda B, Nghiem N (1999) Development of new peak shear-strength criterion for anisotropic rock joints. J Eng Mech 125(9):1010–1017CrossRef

Ladanyi B, Archambault G (1969) Simulation of shear behaviour of a jointed rock mass. In: Proceedings of the 11th US symposium on rock mechanics (USRMS), Berkeley, California, pp 105–125

Lee Y, Park J, Song J (2014) Model for the shear behavior of rock joints under CNL and CNS conditions. Int J Rock Mech Min 70:252–263

Leichnitz W (1985) Mechanical properties of rock joints. Int J Rock Mech Min 22(5):313–321CrossRef

Li B (2009) Coupled shear-flow properties of rock fractures. Ph.D. thesis, Nagasaki University

Li B, Jiang Y, Koyama T, Jing L, Tanabashi Y (2008) Experimental study of the hydro-mechanical behavior of rock joints using a parallel-plate model containing contact areas and artificial fractures. Int J Rock Mech Min 45(3):362–375CrossRef

Li Y, Oh J, Mitra R, Hebblewhite B (2016a) A constitutive model for a laboratory rock joint with multi-scale asperity degradation. Comput Geotech 72:143–151CrossRef

Li Y, Oh J, Mitra R, Hebblewhite B (2016b) Experimental studies on the mechanical behaviour of rock joints with various openings. Rock Mech Rock Eng 49(3):837–853CrossRef

Li Y, Oh J, Mitra R, Canbulat I (2017) A fractal model for the shear behaviour of large-scale opened rock joints. Rock Mech Rock Eng 50(1):67–79CrossRef

Muralha J, Pinto Da Cunha A (1990) About LNEC experience on scale effects in the mechanical behaviour of joints. In: Proceedings of rock joints, Loen, Norway, pp 131–145

Oh J (2005) Three dimensional numerical modeling of excavation in rock with dilatant joints. Ph.D. thesis, University of Illinois at Urbana-Champaign

Oh J, Cording E, Moon T (2015) A joint shear model incorporating small-scale and large-scale irregularities. Int J Rock Mech Min 76:78–87

Oh J, Li Y, Mitra R, Canbulat I (2017) A numerical study on dilation of a saw-toothed rock joint under direct shear. Rock Mech Rock Eng 50(4):913–925CrossRef

Ohnishi Y, Dharmaratne P (1990) Shear behaviour of physical models of rock joints under constant normal stiffness conditions. In: Proceedings of Rock Joints, Loen, Norway, pp 267–273

Ohnishi Y, Yoshinaka R (1995) Laboratory investigation of scale effect in mechanical behavior of rock joint. In: Proceedings of the 2nd international conference on the mechanics of jointed and faulted rock, Vienna, Austria, pp 465–470

Olsson R, Barton N (2001) An improved model for hydromechanical coupling during shearing of rock joints. Int J Rock Mech Min 38(3):317–329CrossRef

Park J, Lee Y, Song J, Choi B (2013) A constitutive model for shear behaviour of rock joints based on three-dimensional quantification of joint roughness. Rock Mech Rock Eng 46(6):1513–1537CrossRef

Patton F (1966a) Multiple modes of shear failure in rock. In: Proceedings of the 1st ISRM Congress, Lisbon, Portugal, pp 509–513

Patton F (1966b) Multiple modes of shear failure in rock and related materials. Ph.D. thesis, University of Illinois

Plesha M (1987) Constitutive models for rock discontinuities with dilatancy and surface degradation. Int J Numer Anal Methoda 11(4):345–362CrossRef

Saeb S, Amadei B (1992) Modelling rock joints under shear and normal loading. Int J Rock Mech Min 29(3):267–278CrossRef

Schneider H (1976) The friction and deformation behaviour of rock joints. Rock Mech Rock Eng 8(3):169–184CrossRef

Skinas C, Bandis S, Demiris C (1990) Experimental investigations and modelling of rock joint behaviour under constant stiffness. In: Proceedings of rock joints, Loen, Norway, pp 301–308

Tatone BS (2009) Quantitative characterization of natural rock discontinuity roughness in-situ and in the laboratory. Master’s thesis, Department of Civil Engineering, University of Toronto

Wibowo JL (1994) Effect of boundary conditions and surface damage on the shear behavior of rock joints: tests and analytical predictions. Ph.D. thesis, University of Colorado

Xia C, Tang Z, Xiao W, Song Y (2014) New peak shear strength criterion of rock joints based on quantified surface description. Rock Mech Rock Eng 47(2):387–400CrossRef

Xiong X, Li B, Jiang Y, Koyama T, Zhang C (2011) Experimental and numerical study of the geometrical and hydraulic characteristics of a single rock fracture during shear. Int J Rock Mech Min 48(8):1292–1302CrossRef

Yang Z, Di C, Yen K (2001) The effect of asperity order on the roughness of rock joints. Int J Rock Mech Min 38(5):745–752CrossRef

Zhang X, Jiang Q, Chen N, Wei W, Feng X (2016) Laboratory investigation on shear behavior of rock joints and a new peak shear strength criterion. Rock Mech Rock Eng 49(9):3495–3512CrossRef

Titel: An Analytical Model for Two-Order Asperity Degradation of Rock Joints Under Constant Normal Stiffness Conditions
verfasst von: Yingchun Li
Wei Wu
Bo Li
Publikationsdatum: 29.01.2018
Verlag: Springer Vienna
Erschienen in: Rock Mechanics and Rock Engineering / Ausgabe 5/2018
Print ISSN: 0723-2632
Elektronische ISSN: 1434-453X
DOI: https://doi.org/10.1007/s00603-018-1405-5

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