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MINERÍA la mejor puerta de acceso al sector minero MINERÍA / SEPTIEMBRE 2022 / EDICIÓN 540 106 modulus and strength of jointed hard rock masses using the GSI system. International Journal of Rock Mechanics and Mining Sciences, vol. 41 p. 3-19. Capes, G., Milne, D. and Grant, D. 2005. Stope hangingwall design approaches at the Xstrata Zinc, George Fisher Mine, North Queensland, Australia, American Rock Mechanics Symposium, Fairbanks, USA. Clark, L. 1998. Minimizing dilution in open stope mining with a focus on stope design and narrow vein longhole blasting, MSc. Thesis, University of B.C., 316p. Forster, K. 2013. Inferred weak rock mass classification for stope design, MSc Thesis, University of Saskatchewan, p. 194. Hadjigeorgiou J, Germain P, Potvin Y. 1994. In situ estimation of rock joint alteration. Can Tunnelling, pp. 155–162. Hadjigeorgiou J, Grenon M, Lessard J. 1998. Defining in-situ block size. CIM Bull 91(1020):72–75. Hoek, E. and Brown, E.T. 1980. Underground excavations in rock. London, Inst. Min. Metall., p. 527. Hoek, E., Kaiser, P.K. and Bawden, W.F. 1995. Support of underground excavations in hard rock. Rotterdam, Balkema, p. 215. Hoek E. 2004. A brief history of the development of the Hoek- Brown failure criterion. Discussion paper #7. [http://www.rocscience.com/hoek/pdf/history]. March 2007. Laubscher, D. and Taylor, H. 1976. The importance of geome- chanics of jointed rock masses in mining operations, Proceedings of the Symposium on Exploration for Rock Engineering, S. Africa, pp. 119128. Milne, D., Germain, P., Grant, D. and Noble, P. 1991. Field observation for the standardization of the NGI classification system for underground mine design. International Congress on Rock Mechanics, A.A. Balkema, Aachen, Germany. Milne, D., Hadjigeorgiou, J. and Pakalnis, R. 1998. Rock mass characterization for underground hard rock mines, Tunnelling and Underground Space Technology, vol. 13, Nº. 4, pp. 383-391. Milne, D. 2007. Problems with rock classification for empirical and numerical design, Proceedings of the International Workshop on Rock Mass Classification Palmstrom, A., Milne, D. and Peck, W. 2001. The reliability of rock mass classification used in underground excavation and support design, ISRM News Journal, Vol. 6, Nº. 3, pp. 40-41. Potvin, Y. 1988. Empirical open stope design in Canada, Ph.D. thesis. The University of B.C., p. 350. Wang, J., Milne, D., Yao, M., Allen, G. and Capes, G. 2003. Open stope exposure time and stope dilution, CIM AGM, Montreal, 2003. John Wiley & Sons, pág. 251. Cai, M., Kaiser, P., Uno, H., Tasaka, Y. y Minami, M. 2004. Estimation of rock mass deformation modulus and strength of jointed hard rock masses using the GSI system. International Journal of Rock Mechanics and Mining Sciences, vol. 41, págs. 3 a 19. Capes, G., Milne, D. y Grant, D. 2005. Stope hangingwall design approaches at the Xstrata Zinc, George Fisher Mine, North Queensland, Australia, American Rock Mechanics Symposium, Fairbanks, EE.UU. Clark, L. 1998. Minimizing dilution in open stope mining with a focus on stope design and narrow vein longhole blasting, Tesis de maestría, Universidad de Columbia Británica, pág. 316. Forster, K. 2013. Inferred weak rock mass classification for stope design, Tesis de maestría, Universidad de Saskatchewan, pág. 194. Hadjigeorgiou J, Germain P, Potvin Y. 1994. In situ estimation of rock joint alteration. Can Tunnelling, págs. 155 a 162. Hadjigeorgiou J, Grenon M, Lessard J. 1998. Defining in-situ block size. CIM Bull 91(1020):72–75. Hoek, E. y Brown, E.T. 1980. Underground excavations in rock. Londres, Inst. Min. Metall., pág. 527. Hoek, E., Kaiser, P.K. y Bawden, W.F. 1995. Support of underground excavations in hard rock. Rotterdam, Balkema, pág. 215. Hoek E. 2004. A brief history of the development of the Hoek- Brown failure criterion. Documento de debate #7. [http://www.rocscience.com/hoek/pdf/history]. Marzo 2007. Laubscher, D. y Taylor, H. 1976. The importance of geomechanics of jointed rock masses in mining operations, Proceedings of the Symposium on Exploration for Rock Engineering, Sudáfrica, págs. 119 a 128. Milne, D., Germain, P., Grant, D. y Noble, P. 1991. Field observation for the standardization of the NGI classification system for underground mine design. International Congress on Rock Mechanics, A.A. Balkema, Aachen, Alemania. Milne, D., Hadjigeorgiou, J. y Pakalnis, R. 1998. Rock mass characterization for underground hard rock mines, Tunnelling and Underground Space Technology, vol. 13, N° 4, págs. 383 a 391. Milne, D. 2007. Problems with rock classification for empirical and numerical design, Proceedings of the International Workshop on Rock Mass Classification Palmstrom, A., Milne, D. y Peck, W. 2001. The reliability of rock mass classification used in underground excavation and support design, ISRM News Journal, Vol. 6, N° 3, págs. 40 a 41. Potvin, Y. 1988. Empirical open stope design in Canada, Tesis de doctorado. Universidad de Columbia Británica, pág. 350. Wang, J., Milne, D., Yao, M., Allen, G. y Capes, G. 2003. Open stope exposure time and stope dilution, CIM AGM, Montreal, 2003.

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