참고문헌
- Barton, N., R. Lien, and J. Lunde, 1974, Engineering classification of rock masses for design of tunnel support, Rock Mech., Vol. 6, 183-236.
- Barton N., 2002, Some new Q-value correlations to assist in site characterization and tunnel design, Int. J. of Rock Mech. Min. Sci., Vol.39, No.2, 185-216. https://doi.org/10.1016/S1365-1609(02)00011-4
- Bieniawski Z.T., 1973, Engineering classification of rock masses, Trans. S. Afr Inst. Civ. Eng., Vol.15, No.12, 335-344.
- Bieniawski, Z.T., 1989, Engineering Rock mass classifications, Published by John-Wiley & Sons, 251p.
- Esterhuizen G.S., A.T. Iannacchione, J.L. Ellenberger, D.R. Dolinar, 2006, Roof stability issues in underground limestone mines in the United States. In: Proceed. of the 25th Int. Conf. on ground control in mining, 354-361.
- Grimstad, E. and N. Barton, 1993, Updating of Q-system for NMT, Proc. Int. Symp. on sprayed concrete-Modern use of wet mix sprayed concrete for underground support, Fagernes, 1993, (Eds Kompen, Opsahl and Berg. Norwegian Concrete Association), Oslo, 46-66.
- Hoek E., 1994, Strength of rock and rock masses, ISRM News, Vol. 2, No.2, 4-16.
- Hoek E. and Brown E.T., 1997, Practical estimates of rock mass strength, Int. J. of Rock Mech. Min. Sci., Vol.34, No.8, 1165-1186. https://doi.org/10.1016/S1365-1609(97)80069-X
- Laubscher, D.H., 1977, Geomechanics classification of jointed rock masses-Mining applications, Trans. Inst. Min. Metall., Vol. 86, A1-A7.
- Laubscher, D.H., 1984, Design aspects and effectiveness of support system in different mining conditions, Trans. Inst. Min. Metall., Vol. 93, A70-A81.
- Laubscher D.H. & Jakubec J., 2001, The MRMR rock mass classification for jointed rock masses, Underground Mining Methods: Engineering Fundamentals and Int. Case Studies, Society of Mining Engineers, AIME, New York, 474-481.
- Mathews, K.E. et al., 1981, Prediction of stable excavation spans for mining at depths below 1000m in hard rock, CAMMET, Report DSS Serial No. OSQ80-00081.
- Mikula P.A. and M.F. Lee, 2003, Confirmation of Q classification for use at Mt. Charlotte mine, In: Proceed. of the 1st Australian Ground Control in Mining Conference, Australia, Nov., 179-183.
- Nickson, S.D., 1992, Cable support guidelines for underground hard rock mine operations, M.App.Sc thesis, University of British Columbia.
- Peck W.A. and M.F. Lee, 2007, Application of the Q-system to Australian underground metal mines, Proceed. of Int. Workshop on Rock Mass Classification in Underground Mining, IC9498, NIOSH Publication, 129-140.
- Potvin, Y., M. Hudyma, H.D.S. Miller, 1988, Design guidelines for open stope supprot, CIM Bulletin, Vol. 82, No. 926, June, 53-62.
- Rao K.U.M., C. Sunwoo, S.K. Chung, S.O. Choi and Y.S. Jeon, 2003, The Suggestion of rock mass classification systems for stability of underground limestone mines-A case study, Tunnel & Underground space, J. Korean Society for Rock Mechanics, Vol.13, No.5, 421-433.
- Steward, S.B.V. and W.W. Forsyth, 1995, The Mathews method for open stope design, CIM Bulletin, vol. 88, no. 992, 45-53.
- Sunwoo, C., Hwang, S.H., Chung, S.K., Lee, S.K. Han K.C., 2001, Correlation between the rock mass classification methods, J. Korea Geotechnical Society, Vol.17, No.4, 127-134.
- Sunwoo C., K.U.M. Rao, S.K. Chung, S.O. Choi and Y.S. Jeon, 2003, A study for optimum mine opening dimension of underground limestone mines by the rock mass classification, KIGAM Bulletin, Vol.7, No.4, 37-48.
- Sunwoo C. and Y.B. Jung, 2005, Stability assessment of underground limestone mine openings by stability graph method, Tunnel & Underground space, J. Korean Society for Rock Mechanics, Vol.15, No.5, 369-377.