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Observed and simulated fracture pattern in diametrically loaded discs of rock material

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Abstract

To investigate the influence of a tensile stress gradient on fracture initiation and fracture growth in rock material, a configuration, consisting of a diametrically loaded disc with a hole on the diameter perpendicular to the loaded diameter, is used. The maximum local tensile stresses the material is able to withstand increase as the stress gradient increases. Depending on the diameter and the eccentricity of the hole, the disc splits along the loaded diameter or macro-fracturing starts at the hole. However, the tensile stresses at the top and the bottom of the hole are for nearly all cases considerably higher than the stress along the loaded diameter and than the macroscopic tensile strength of the material, determined by conventional Brazilian tests. To better understand this particular fracturing behaviour, numerical simulations of the experiments are conducted using the boundary element code DIGS, which allows the incorporation of weak elements (flaws), representing defects and weaknesses in the rock material. It is shown that the influence of the stress gradient on the stress concentration at the tip of mobilised defects lies at the origin of the particular fracturing behaviour in the diametrically loaded disc with a hole. The study of the new configuration leads also to a number of conclusions with regard to the failure in diametrically loaded discs in general. Based on the flaw model, fracture initiation in the Brazilian test has to be attributed to fracture growth of a mobilised defect, situated in the area close to one of the platens.

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References

  • Z.P. Bažant (1984) ArticleTitleSize effect in blunt fracture: concrete, rock, metals J. Eng. Mech. ASCE 110 518–535

    Google Scholar 

  • Z.P. Bažant E.-P. Chen (1997) ArticleTitleScaling of structural failure Appl. Mech. Rev. 50 593–627

    Google Scholar 

  • Z.P. Bažant M.T. Kazemi (1990) ArticleTitleDetermination of fracture energy, process zone length and brittleness number from size effect, with application to rock and concrete Int. J. Fract. 44 111–131

    Google Scholar 

  • Z.P. Bažant Z. Li (1995) ArticleTitleModulus of rupture: size effect due to fracture initiation in boundary layer J. Struct. Eng. 121 739–746

    Google Scholar 

  • F.M. Borodich (1999) ArticleTitleFractals and fractal scaling in fracture mechanics Int. J. Fracture 95 239–259

    Google Scholar 

  • J. Carmeliet R. Borst Particlede (1995) ArticleTitleStochastic approaches for damage evolution in standard and non-standard continua Int. J. Solids Struct. 32 1149–1160

    Google Scholar 

  • J. Carmeliet H. Hens (1994) ArticleTitleProbabilistic nonlocal damage model for continua with random field properties J. Eng. Mech. ASCE 120 2013–2027

    Google Scholar 

  • A. Carpinteri G. Ferro S. Invernizzi (1997) ArticleTitleThe nominal tensile strength of disordered materials: a statistical fracture mechanics approach Eng. Fract. Mech. 58 421–435

    Google Scholar 

  • B.J. Carter (1992) ArticleTitleSize and stress gradient effects on fracture around cavities Rock Mech. Rock Eng. 25 167–186

    Google Scholar 

  • Clatworthy, D.E., Sellers, E.J. and Scheele, F. (1993). Investigation of splitting tensile test. Report No. 225, FRD/UCT Centre for research in computational and applied mechanics, University of Cape Town.

  • Colback, P.S.B. (1966). An analysis of brittle fracture initiation and propagation in the Brazilian test. Proceedings of the first Congress of the International Society of Rock Mechanics. Lisbon, 385–391.

  • Couvreur, J.-F. (1997). Ultrasonic wave propagation in sedimentary rocks: signal processing related to the failure process (in French). PhD thesis Universit{\’e} Catholique de Louvain, Louvain-la-Neuve.

  • A.M. Crawford J.H. Curran (1982) ArticleTitleHigher-order functional variation displacement discontinuity elements Int. J. Rock Mech. Min. 19 143–148

    Google Scholar 

  • S.L. Crouch A.M. Starfield (1983) Boundary elements in solid mechanics Allen & Unwin London 322

    Google Scholar 

  • R. Borst Particlede J. Pamin R.H.J. Peerlings L.J. Sluys (1995) ArticleTitleOn gradient-enhanced damage and plasticity models for failure in quasi-brittle and frictional materials Comput. Mech. 17 130–141

    Google Scholar 

  • C. Fairhurst (1964) ArticleTitleOn the validity of the Brazilian test for brittle materials Int. J. Rock Mech. Min. 1 535–546

    Google Scholar 

  • Falls, S.D., Chow, T., Young, R.P. and Hutchins, D.A. (1991). Acoustic emission analysis and ultrasonic velocity imaging in the study of rock failure. Acoustic emission: current practice and future directions, ASTM STP 1077.

  • G. Hondros (1959) ArticleTitleThe evaluation of Poisson’s ratio and the modulus of materials of a low tensile resistance by the Brazilian (indirect tensile) test with particular reference to concrete Aust. J. Appl. Sci. 10 243–268

    Google Scholar 

  • N.N. Hsu S.C. Hardy (1978) Experiments in acoustic emission waveform analysis for characterization of AE-sources Y.H. Pao (Eds) In Elastic waves and nondestructive testing of materials, AMD 29 ASME New York 85–106

    Google Scholar 

  • J.A. Hudson E.T. Brown F. Rummel (1972) ArticleTitleThe failure of rock discs and rings loaded in diametral compression Int. J. Rock Mech. Min. 9 241–248

    Google Scholar 

  • E.Z. Lajtai (1972) ArticleTitleEffect of tensile stress gradient on brittle fracture initiation Int. J. Rock Mech. Min. 9 569–578

    Google Scholar 

  • A.V. Lavrov A. Vervoort (2002) ArticleTitleTheoretical treatment of tangential stress effects on stress distribution in Brazilian test Int. J. Rock Mech. Min. 39 IssueID2 275–283

    Google Scholar 

  • D.F. Malan J.A.L. Napier (1995) ArticleTitleComputer modelling of granular material microfracturing Tectonophysics 248 21–37

    Google Scholar 

  • C.D. Martin (1997) ArticleTitleSeventeenth Canadian Geothechnical Colloquium: the effect of cohesion loss and stress path on brittle rock strength Can. Geotech. J. 34 698–725

    Google Scholar 

  • M. Mellor I. Hawkes (1971) ArticleTitleMeasurement of tensile strength by diametral compression of discs and annuli Eng. Geol. 5 173–225

    Google Scholar 

  • Napier, J.A.L. (1990). Modelling of fracturing near deep level gold mine excavations using a displacement discontinuity approach. In Proceedings of the International Conference of the Mechanics of jointed and faulted Rocks (Edited by H.-P. Rossmanith), pp. 709–715.

  • J.A.L. Napier M.W. Hildyard (1992) ArticleTitleSimulation of fracture growth around openings in highly stressed brittle rock J. S. Afr. Inst. Min. Metall. 92 159–168

    Google Scholar 

  • J.A.L. Napier D.F. Malan (1997) ArticleTitleA viscoplastic discontinuum model of time-dependent fracture and seismicity effects in brittle rock Int. J. Rock Mech. Min. 34 1075–1089

    Google Scholar 

  • Napier, J.A.L. and Peirce, A.P. (1995). Simulation of extensive fracture formation and interaction in brittle materials. In Proceedings of the second international conference on mechanics of jointed and faulted rock (Edited by H.-P. Rossmanith), pp. 63–74.

  • J.A.L. Napier A. Daehnke T. Dede M.W. Hildyard J.S. Kuijpers D.F. Malan E.J. Sellers P.A. Turner (1997) ArticleTitleQuantification of stope fracture zone behaviour in deep level gold mines J. S. Afr. Inst. Min. Metall. 97 119–134

    Google Scholar 

  • V. Nesetova E.Z. Lajtai (1973) ArticleTitleFracture from compressive stress concentrations around elastic flaws Int. J. Rock Mech. Min. 10 265–284

    Google Scholar 

  • G. Pijaudier-Cabot Z.P. Bažant (1988) ArticleTitleNonlocal damage theory J. Eng. Mech. ASCE 113 1512–1533

    Google Scholar 

  • E.J. Sellers (1999) Review of theories of scaling and size effect in rock. Interim report for SIMRAC project GAP 601No 99–0258 CSIR Mining Technology, Johannesburg

    Google Scholar 

  • G. Swan (1980) ArticleTitleFracture stress scale effects for rocks in bending Int. J. Rock Mech. Min. 17 317–324

    Google Scholar 

  • Van de Steen, B. (2001). Effect of heterogeneities and defects on the fracture pattern in brittle rock. PhD thesis, Katholieke Universiteit Leuven, Leuven.

  • B. Steen ParticleVan de A. Vervoort (2001) ArticleTitleNon-local stress approach to fracture initiation in laboratory experiments with a tensile stress gradient Mech. Mater. 33 729–740

    Google Scholar 

  • B. Steen ParticleVan de A. Vervoort K. Sahin (2002) ArticleTitleInfluence of the internal structure of crinoidal limestone on fracture paths Eng. Geol. 67 109–125

    Google Scholar 

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Authors and Affiliations

  1. Catholic University Leuven, Kasteelpark Arenberg 40, 3001, Leuven, Belgium

    B. Van De. Steen & A. Vervoort

  2. School of Computational and Applied Mathematics, University of the Witwatersrand, Johannesburg, South Africa

    J. A. L. Napier

Authors
  1. B. Van De. Steen
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  2. A. Vervoort
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  3. J. A. L. Napier
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Correspondence to A. Vervoort.

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Steen, B.V.D., Vervoort, A. & Napier, J.A.L. Observed and simulated fracture pattern in diametrically loaded discs of rock material. Int J Fract 131, 35–52 (2005). https://doi.org/10.1007/s10704-004-3177-z

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  • DOI: https://doi.org/10.1007/s10704-004-3177-z

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