REVISTA MINERÍA 561 | EDICIÓN JUNIO 2024

MINERÍA la mejor puerta de acceso al sector minero MINERÍA / JUNIO 2024 / EDICIÓN 561 52 Day, J.J., Diederichs, M.S. and Hutchinson, D.J. 2019. Composite Geological Strength Index approach with application to hydrothermal vein networks and other Intrablock structures in complex Rockmasses. Geotechnical and Geological Engineering, 37(6), 52855314. Deere, D.U. 1963. Technical description of rock cores for engineering purposes. Rock Mechanics and Engineering Geology, 1(1), 16-22. Harr, M.E. 1987. Reliability - based design in civil engineering. McGraw-Hill, New York. Hoek, E. 1994. Strength of rock and rock masses. International Society for Rock Mechanics News Journal, 2 (2), 4-16. Hoek, E. 1998. Reliability of Hoek-Brown estimates of rock mass properties and their impact on design. International Journal of Rock Mechanics and Mining Sciences, 35(1), 63-68. Hoek, E. 1999. Putting numbers to geology – an engineer's viewpoint. Quarterly Journal of Engineering Geology and Hydrogeology, 32(1), 1-19. Hoek, E. and Brown, E. 2019. The Hoek–Brown failure criterion and GSI – 2018 edition. Journal of Rock Mechanics and Geotechnical Engineering, 11(3), 445463. Hoek, E., Carter, T.G. and Diederichs, M.S. 2013. Quantification of the Geological Strength Index chart. In: Pyrac-Nolte, L.J. (ed.), Proceedings of the 47th US Rock Mechanics/Geomechanics Symposium ARMA – Curran Associates Inc. Hoek, E., Kaiser, P.K. and Bawden, W.F. 1995. Support of Underground Excavations in Hard Rock. Balkema, A.A., Rotterdam, 228 p. Irvani, I., Wilopo, W. and Karnawati, D. 2013. De- termination of nuclear power plant site in West Bangka based on rock mass rating and Geological Strength index. Journal of Applied Geology, 5(2), 78-86. Jordá, L. and Tomás, R. 2014. Aplicación de Slope Mass Rating (SMR) en Perú: caracterización geomecánica de un talud en la carretera Izcuchaca – Quichuas (Huancavelica). In: 1st International Congress on Mine Design by Empirical Methods. Perú, 1(1), 6 p. Osgoui, R. and Ünal, E. 2005. Rock reinforcement design for unstable tunnels originally excavated in very poor rock mass. In: Erdem and Solak (eds.), Underground Space Use. Analysis of the Past and Lessons for the Future – Taylor & Fran- cis Group. Pozo, R. 2022. Comparative analysis of different calculation methods of the Geological Strength Index (GSI) based on qualitative and quantitative approaches. Rudarsko Geolosko Naftni Zbornik (The Mining – Geology – Petroleum Engineering Bulletin), 59(3), 121-138. Russo, G. 2009. A new rational method for calculating the GSI. Tunnelling and Underground Space Technology, 24(1), 103-111. Figura 7. Compilado de los datos reportados por terceros y datos propios, relaciones GSI – RMR'. Sánchez Rodríguez, S., López Valero, J.D. and Laina Gómez, C. 2016. Correlaciones entre clasificaciones geomecánicas en ambientes andinos. In: ISRM 2nd International Specialized Conference on Soft Rocks, 6 p. Siddique, T. and Khan, E.A. 2019. Stability appraisal of road cut slopes along a strategic transportation route in the Himalayas, Uttarakhand, India. SN Applied Sciences, 1(5). Singh, J.L. and Tamrakar, N.K. 2013. Rock mass rating and Geological Strength Index of rock masses of Thopal-Malekhu River areas, central Nepal lesser Himalaya. Bulletin of the Department of Geology, 16, 29-42. Somodi, G., Bar, N., Kovács, L., Arrieta, M., Török, Á. and Vásárhelyi, B. 2021. Study of Rock Mass siltstone, sandstone, and quartzite rock masses. Applied Sciences, 11(8), 3351. Sonmez, H. and Ulusay, R. 1999. Modifications to the Geological Strength Index (GSI) and their applicability to stability of slopes. International Journal of Rock Mechanics and Mining Sciences, 36(6), 743-760. Sonmez, H. and Ulusay, R. 2002. A discussion on the Hoek - Brown failure criterion and suggested modifications to the criterion verified by slope stability case studies. Bulletin of Earth Sciences Application and Research Centre of Hacettepe University, 26 (1), 77–99. Winn, K. 2019. Multi-approach Geological Strength index (GSI) determination for stratified sedimentary rock masses in Singapore. Geotechnical and Geological Engineering, 38(2), 2351-2358. Winn, K. and Wong, L.N. 2018. Quantitative GSI determination of Singapore’s sedimentary rock mass by applying four different approaches. Geotechnical and Geological Engineering, 37(3), 2103-2119. Zhang, Q., Huang, X., Zhu, H. and Li, J. 2019. Quantitative assessments of the correlations be- tween Rock Mass Rating (RMR) and Geological Strength index (GSI). Tunnelling and Underground Space Technology, 83, 73-81.

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