Bibliografia

Barton N. and Choubey V., 1977. The shear strength of rock joints in theory and practice. Rock Mechanics. 12(1), 1-54.

Barton, 2002. Destructive criticism - constructive thoughts. JRMTT, India.

Bieniawski Z.T. 1976. Rock mass classification in rock engineering. In Exploration for Rock Engineering, Proc. of the Symp., (ed. Z.T. Bieniawski) 1, 97-106. Cape Town, Balkema.

Bieniawski, Z.T., 1989. Engineering Rock Mass Classification. Wiley, Chichester, 251 pp.

Harp, E. L., and Noble, M. A., 1993, An engineering classification to evaluate seismic rock-fall susceptibility and its application to the Wasatch Front: Association of Engineering Geologists Bulletin, V. 30, 293-319.

ISRM (International Society for Rock Mechanics), 1978. Suggested Methods for the Quantitative Description of Discontinuities in Rock Masses. International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, 15, 319-368.

Jašarević I., Kovačević M.S., 1996. Analyzing applicability of existing classification for hard – carbonate rock in Mediterranean area, EUROROCK ’96, Torino, pp. 811 – 818.

McCarty J.L. and Carden H.D., 1962. Impact characteristics of various materials obtained by an acceleration-time-history tecnique applicable to evaluating remote targets: NASA Technical Note D-1269, June 1962, 61pp.

Palmstrom, A., 1986. A General Practical Method for Identification of Rock Masses to be Applied in Evaluation of Rock Mass Stability Conditions and TBM Boring Progress. Proc. Conf. on Fjellsprengingsteknikk, Bergmekanikk. Geoteknikk, Oslo, Norway, pp.31.1-31.31.

Priest S D, Hudson J A, 1981. Estimation of Discontinuity Spacing and Trace Length Using Scanline Survey. International Journal of Rock Mechanics and Mining Sciences, vol. 18, pp. 183-197.

Robertson A. (1979). The interpretation of geologic factors for use in slope theory. Proc. Symp. On the Theoretical Background to the Planning of Open Pit Mines, Johannesburg. South Africa, 55-71.

Robertson A.M., 1988. Estimating weak rock strength, in: Sastry, K.V.S. (Ed.), Proceedings of the SME Annual meeting, Society of Mining Engineering, Phoenix, pp. 1-5.

Romana M., 1985. New adjustment ratings for application of Bieniawski classification to slopes, in: Proceedings of the International Symposium on the Role of Rock Mechanics in Excavations for Mining and Civil Works. International Society of Rock Mechanics, Zacatecas, pp. 49-53.

Sen Z. and Kazi A., 1984. Discontinuity spacing and RQD estimates from finite lenght scanlines. Int. J. Rock Mech. Min. Sci. And Geomech. Abstr., 21(4), 203-212.

Sen Z. and Sadagah B.H., 2003. Modified rock mass classification system by continuous rating. Engineering Geology, 67 (3–4) (2003), pp. 269-280

Serafim J.L. and Pereira J.P, 1983. Consideration of the geomechanics classification of Beniawski. Proc. Int. Symp. Eng. Geol. Underground Constr., Lisbon, 1, II33-II42.

Singh B., Göel R.K., 1999. Rock Mass Classification. A Practical Approach in Civil Engineering. Ámsterdam: Elsevier.

Wickham G.E., Tiedemann H.R. and Skinner E.H., 1972. Support determination based on geologic predictions. In Proc. North American rapid excav. tunneling conf., Chicago, (eds K.S. Lane and L.A. Garfield), 43-64. New York: Soc. Min. Engrs, Am. Inst. Min. Metall. Petrolm Engrs.