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Rock Mechanics and Rock Engineering

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01.03.2010 | Original Paper

Dilation and Spalling in Axially Compressed Beams Subjected to Bending

verfasst von: N. Cho, C. D. Martin, D. C. Sego, J. Jeon

Erschienen in: Rock Mechanics and Rock Engineering | Ausgabe 2/2010

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Abstract

Laboratory testing of rectangular beams using a synthetic rock was used to investigate the onset of dilation and spalling. The beams are axially compressed and subjected to 4-point bending to provide non-uniform compressive stresses. The maximum tangential stress occurs at the top of the beam and rapidly decreases with distance from the top of the beam. This stress distribution was used to simulate the maximum tangential stress distribution found around circular excavations. The results showed using this beam test configuration that the onset of dilation based on beam displacement and visually observed spalling began at approximately the same stress level. Discrete element numerical analyses (particle flow code) were used to evaluate the stress path at various locations in the beams. The analyses revealed that spalling and dilation in the beams occurred well below the peak strength failure envelope determined from conventional laboratory tests. The findings suggest that the onset of dilation in laboratory tests appears to be a good indicator for assessing the stress magnitudes required to initiate spalling.

Nächster Artikel New Observations on the Brittle Failure Process of Simulated Crystalline Rocks

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Andersson JC (2007) Äspö Pillar stability experiment: rock mass response to coupled mechanical thermal loading. PhD thesis, Royal Institute of Technology (Kungliga Tekniska Högskolan), KTH, Stockholm

Brace WF, Paulding B, Scholz C (1966) Dilatancy in the fracture of crystalline rocks. J Geophys Res 71:3939–3953

Cho N, Martin CD, Sego DC (2007) A clumped particle model for rock. Int J Rock Mech Min Sci 44:997–1010CrossRef

Diederichs MS (2003) Rock fracture and collapse under low confinement conditions. Rock Mech Rock Eng 36(5):339–381CrossRef

Dzik EJ (1996) Numerical modeling of progressive fracture in the compression loading of cylindrical cavities. PhD, University of Manitoba

Ewy RT, Cook NGW (1990) Deformation and fracture around cylindrical openings in rock—I. Observations and analysis of deformations. Int J Rock Mech Min Sci Abstr 27:387–407CrossRef

Fairhurst C, Cook NGW (1966) The phenomenon of rock splitting parallel to the direction of maximum compression in the neighbourhood of a surface. In: Proceedings of the 1st congress of ISRM, pp 687–692

Gay NC (1973) Fracture growth around openings in thickwalled cylinders of rock subjected to hydrostatic compression. Int J Rock Mech Min Sci Abstr 10:209–233CrossRef

Haimson BC, Song I (1993) Laboratory study of borehole breakouts in Cordova cream: a case of shear failure mechanism. Int J Rock Mech Min Sci Abstr 30:1047–1056CrossRef

Hibbeler RC (1997) Mechanics of material. Prentice-Hall, Englewood Cliffs

Hoek E (1965) Rock fracture under static stress conditions. National Mechanical Engineering Research Institute, Council for Scientific and Industrial Research, MEG383

Hoek E (1968) Brittle failure of rock. In: Stagg KG, Zienkiewicz OC (eds) Rock mechanics in engineering practice. Wiley, New York, pp 99–124

Horii H, Nemat-Nasser S (1985) compression-induced microcrack growth in brittle solids: axial splitting and shear fracture. J Geophys Res 90:3105–3125CrossRef

Itasca Consulting Group (2004) PFC2D (particle flow code in 2 dimensions) version 3.1

Lajtai EZ (1974) Brittle fracture in compression. Int J Fract Mech 10:525–536CrossRef

Lee M, Haimson B (1993) Laboratory study of borehole breakouts in Lac Du Bonnet granite: a case extensile failure mechanism. Int J Rock Mech Min Sci Abstr 30:1039–1045CrossRef

Lipson C, Juvinall RC (1963) Handbook of stress and strength. Macmillan, New York

Martin CD (1997) Seventeenth Canadian geotechnical colloquium: the effect of cohesion loss and stress path on brittle rock strength. Can Geotech J 34:698–725CrossRef

Martin CD, Chandler NA (1994) The progressive fracture of Lac du Bonnet granite. Int J Rock Mech Min Sci Abstr 31(6):643–659CrossRef

Martin CD, Martino JB, Dzik EJ (1994) Comparison of borehole breakouts from laboratory and field tests. In: Proceedings of the EUROCK’94, SPE/ISRM rock mechanics in petroleum engineering, Delft, A.A. Balkema, Rotterdam, pp 183–190

Martin CD, Martino JB, Read RS (1997) Observations of brittle failure around a circular test tunnel. Int J Rock Mech Min Sci 34:1065–1073CrossRef

Martin CD, Kaiser PK, McCreath DR (1999) Hoek-Brown parameters for predicting the depth of brittle failure around tunnels. Can Geotech J 36:136–151CrossRef

Potyondy DO, Cundall PA (2004) A bonded-particle model for rock. Int J Rock Mech Min Sci 41:1329–1364CrossRef

RocScience Inc. (2002a) Phase2D. http://www.rocscience.com

RocScience Inc. (2002b) RocLab 1.007. http://www.rocscience.com

Santarelli FJ, Brown ET (1989) Failure of three sedimentary rocks in triaxial and hollow cylinder compression tests. Int J Rock Mech Min Sci 26:401–413CrossRef

Sellers EJ, Klerck P (2000) Modelling of the effect of discontinuities on the extent of the fracture zone surrounding deep tunnels. Tunelling Undergr Space Technol 15:463–469CrossRef

Tapponnier P, Brace WF (1976) Development of stress-induced microcracks in westerly granite. Int J Rock Mech Min Sci Abstr 13:103–112CrossRef

Titel: Dilation and Spalling in Axially Compressed Beams Subjected to Bending
verfasst von: N. Cho
C. D. Martin
D. C. Sego
J. Jeon
Publikationsdatum: 01.03.2010
Verlag: Springer Vienna
Erschienen in: Rock Mechanics and Rock Engineering / Ausgabe 2/2010
Print ISSN: 0723-2632
Elektronische ISSN: 1434-453X
DOI: https://doi.org/10.1007/s00603-009-0049-x

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