Skip to main content
SpringerLink
Log in

The Development of a new Numerical Modelling Approach for Naturally Fractured Rock Masses

  • Published:
Rock Mechanics and Rock Engineering Aims and scope Submit manuscript

Summary.

An approach for modelling fractured rock masses has been developed which has two main objectives: to maximise the quality of representation of the geometry of existing rock jointing and to use this within a loading model which takes full account of this style of jointing. Initially the work has been applied to the modelling of mine pillars and data from the Middleton Mine in the UK has been used as a case example. However, the general approach is applicable to all aspects of rock mass behaviour including the stress conditions found in hangingwalls, tunnels, block caving, and slopes. The rock mass fracture representation was based on a combination of explicit mapping of rock faces and the synthesis of this data into a three-dimensional model, based on the use of the FracMan computer model suite. Two-dimensional cross sections from this model were imported into the finite element computer model, ELFEN, for loading simulation.

The ELFEN constitutive model for fracture simulation includes the Rotating Crack, and Rankine material models, in which fracturing is controlled by tensile strength and fracture energy parameters. For tension/compression stress states, the model is complemented with a capped Mohr-Coulomb criterion in which the softening response is coupled to the tensile model. Fracturing due to dilation is accommodated by introducing an explicit coupling between the inelastic strain accrued by the Mohr-Coulomb yield surface and the anisotropic degradation of the mutually orthogonal tensile yield surfaces of the rotating crack model. Pillars have been simulated with widths of 2.8, 7 and 14 m and a height of 7 m (the Middleton Mine pillars are typically 14 m wide and 7 m high). The evolution of the pillar failure under progressive loading through fracture extension and creation of new fractures is presented, and pillar capacities and stiffnesses are compared with empirical models. The agreement between the models is promising and the new model provides useful insights into the influence of pre-existing fractures. Further work is needed to consider the effects of three-dimensional loading and other boundary condition problems.

This is a preview of subscription content, log in via an institution to check access.

Access this article

Log in via an institution

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Institutional subscriptions

Similar content being viewed by others

References

  • Bearman, R. A. (1991): The application of rock-mechanics parameters to the prediction of crusher performance. Ph.D. thesis, Camborne School of Mines, Penryn, U.K.

  • B. H. G. Brady E. T. Brown (1993) Rock mechanics for mining EditionNumber2 Chapman and Hall London

    Google Scholar 

  • Cai, M., Kaiser, P. K. (2004): Numerical simulation of the Brazilian test and the tensile strength of anisotropic rocks and rocks with pre-existing cracks. In: Proc., SINOROCK 2004, International Symposium on Rock Mechanics: Rock characterization and, modelling and engineering design methods, 18–21 May, Three Gorges Project site, China. Int. J. Rock Mech. Min. Sci. 41, 450–451.

  • Coggan, J. S., Pine, R. J., Stead, D., Rance, J. (2003): Numerical modelling of brittle rock failure using a combined finite-discrete element approach: Implications for rock engineering design. In: ISRM 2003 – Technology Roadmap for rock mechanics, South African Institute of Mining and Metallurgy, SAIMM Symposium Series S33. 211–218.

  • Dershowitz, W. (1992): The role of the Stripa Phase 3 Project in the development of practical discrete fracture modeling technology. In: Proc., Fourth International NEA/SKB Symposium, Stockholm. OECD/NEA, Paris, pp 237–258.

  • W. Dershowitz G. Lee J. Geier P. R. LaPointe (1998) FracMan: Interactive discrete feature data analysis, geometric modelling and exploration simulation. User Documentation Golder Associates Inc., Seattle Washington

    Google Scholar 

  • Dershowitz, W., La Pointe, P., Parney, B., Cladouhos, T. (2001): Multiphase discrete fracture modeling in support of improved oil recovery from the North Oregon Basin, Wyoming. In: Proc., 38th US Rock Mechanics Symposium, DC Rocks 2001, Washington DC. AA Balkema, Lisse, pp 663–668.

  • Diederichs, M. S., Coulson, A., Falmagne, V., Rizkalla, M., Simser, B. (2002): Applications of rock damage limits to pillar analysis at Brunswick Mine. In: Hammah, R., Bawden, W., Curran, J., Telesnicki, M. (eds.) Mining and Tunnelling Innovation and Opportunity. Proc. 5th North Am. Rock Mech. Symp. & 17th Tunn. Assn Can. Conf., Toronto, Univ. Toronto Press Toronto.

  • E. Eberhardt D. Stead J. S. Coggan (2004) ArticleTitleNumerical analysis of initiation and progressive failure in natural rock slopes – the 1991 Randa rockslide Int. J. Rock Mech. Min. Sci. 41 69–87 Occurrence Handle10.1016/S1365-1609(03)00076-5

    Article  Google Scholar 

  • D. G. F. Hedley F. Grant (1972) ArticleTitleStope-and-pillar design for the Elliot Lake Uranium Mines Bull. Can. Inst. Min. Metall. 65 37–44

    Google Scholar 

  • Hoek, E., Carranza-Torres, C., Corkum, B. (2002): The Hoek-Brown failure criterion – 2002. In: 5th North American Rock Mechanics Symposium and 17th Tunnelling Association of Canada Conference, NARMS-TAC 267–271.

  • E. Hoek P. K. Kaiser W. F. Bawden (1995) Support of underground excavations in hard rock A.A. Balkema Rotterdam 215

    Google Scholar 

  • Klerck, P. A. (2000): The finite element modelling of discrete fracture in quasi-brittle materials. Ph.D. thesis, University of Wales, Swansea.

  • P. A. Klerk E. J. Sellers D. R. J. Owen (2004) ArticleTitleDiscrete fracture in quasi-brittle materials under compressive and tensile stress states Comp. Meth. Appl. Mech. Eng. 193 3035–3056 Occurrence Handle10.1016/j.cma.2003.10.015

    Article  Google Scholar 

  • N. Krauland P. E. Soder (1987) ArticleTitleDetermining pillar strength from pillar failure observations Eng. Min. J. 8 34–40

    Google Scholar 

  • P. J. Lunder R. C. Pakalnis (1997) ArticleTitleDetermination of the strength of hard rock mine pillars CIM Bull 90 IssueID1013 51–55

    Google Scholar 

  • B. J. Madden (1991) ArticleTitleA re-assessment of coal-pillar design J. S. Afr. Inst. Min. Metallurgy 90 IssueID1 27–37

    Google Scholar 

  • C. D. Martin W. G. Maybee (2000) ArticleTitleThe strength of hard-rock pillars Int. J. Rock Mech. Min. Sci. 37 1239–1246 Occurrence Handle10.1016/S1365-1609(00)00032-0

    Article  Google Scholar 

  • Owen, D. R. J., Feng, Y. T., Han, K. J. (2000): Finite-discrete element analysis of multi-fracture and multi-contact phenomena. VECPAR 2000, Porto, Portugal, June 21–23, 2000.

  • D. R. J. Owen Y. T. Feng E. A. de Souza Neto M. G. Cottrell F. Wang F. M. Andrade Pires J. Yu (2004) ArticleTitleThe modelling of multi-fracturing solids and particulate media Int. J. Num. Meth. Eng. 60 IssueID1 317–339 Occurrence Handle10.1002/nme.964

    Article  Google Scholar 

  • Owen, D. R. J., Feng, Y. T., Klerck, P. A., Yu, J., Crook, A. J. L. (2001): Computational strategies for multi-fracturing solids and particular media. European Conference on Computational Mechanics, ECCM-2001, Cracow, Poland, June 2001.

  • R. J. Pine E. Berger R. D. Hammett E. Artigiani (2004) ArticleTitleVipiteno Mine, Italy – underground mining for marble Min. Tech. (Trans. Inst. Min. Metall. A). 13 A142–A152 Occurrence Handle10.1179/037178404225006146

    Article  Google Scholar 

  • Roberts, D. P., Lane, W. L., Yanske, T. R. (1998): Pillar extraction at the Doe run Company, 1991–1998. AusIMM 1998 – The Mining Cycle, pp 227–233.

  • Sjoeberg, J. (1992): Failure modes and pillar behaviour in the Zinkgruvan mine. In: Tillerson, J. A., Wawersik, W. R. (eds.) Proc., 33rd U.S. Rock Mechanics Symp. Santa Fe. Balkema, Rotterdam, 491–500.

  • J. L. Starfield P. A. Cundall (1998) ArticleTitleTowards a methodology for rock mechanics modelling Int. J. Rock Mech. Min. Sci. Geomech. Abstr. 25 99–106 Occurrence Handle10.1016/0148-9062(88)92292-9

    Article  Google Scholar 

  • Stead, D., Coggan, J. S., Eberhardt, E. (2004): Realistic simulation of rock slope failure mechanisms: the need to incorporate principles of fracture mechanics. In: Proc., SINOROCK 2004, International Symposium on Rock Mechanics: Rock characterization and, modelling and engineering design methods, 18–21 May, Three Gorges Project site, China. Int. J. Rock Mech. Min. Sci. 41, 446.

  • Von Kimmelmann, M. R., Hyde, B., Madgwick, R. J. (1984): The use of computer applications at BCL Limited in planning pillar extraction and design of mining layouts. In: Brown, E. T., Hudson, J. A. (eds.), Proc., ISRM Symp. Design and Performance of Underground Excavations. Geotechnical Society, London, 53–63.

  • www.fracman.golder.com. FracMan Technology Group, Golder Associates (UK).

  • www.rockfield.co.uk/ELFEN.htm. Rockfield Software Ltd. Technium, Kings Road, Prince of Wales Dock, Swansea, SA1 8PH, UK.

  • L. Zhang H. H. Einstein (2000) ArticleTitleEstimating the intensity of rock discontinuities Int. J. Rock Mech. Min. Sci. 37 819–837 Occurrence Handle10.1016/S1365-1609(00)00022-8

    Article  Google Scholar 

  • L. Zhang H. H. Einstein W. S. Dershowitz (2002) ArticleTitleStereological relationship between trace length and size distribution of elliptical discontinuities Geotechnique 52 IssueID6 419–433 Occurrence Handle10.1680/geot.52.6.419.38737

    Article  Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Camborne School of Mines, University of Exeter, Penryn, Cornwall, UK

    R. J. Pine, J. S. Coggan, Z. N. Flynn & D. Elmo

Authors
  1. R. J. Pine
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. J. S. Coggan
    View author publications

    You can also search for this author in PubMed Google Scholar

  3. Z. N. Flynn
    View author publications

    You can also search for this author in PubMed Google Scholar

  4. D. Elmo
    View author publications

    You can also search for this author in PubMed Google Scholar

Rights and permissions

Reprints and permissions

About this article

Cite this article

Pine, R., Coggan, J., Flynn, Z. et al. The Development of a new Numerical Modelling Approach for Naturally Fractured Rock Masses. Rock Mech. Rock Engng. 39, 395–419 (2006). https://doi.org/10.1007/s00603-006-0083-x

Download citation

  • Received:

  • Accepted:

  • Published:

  • Issue Date:

  • DOI: https://doi.org/10.1007/s00603-006-0083-x

Search

Navigation