Geology Reference
In-Depth Information
Fractures, Cosgrove, J.W. & Engelder, T. (eds.), Geological Society Publication,
231, 49
71.
Roorda, J., Thompson, J.C. & White, O.L., 1982. The analysis and prediction of
lateral
-
instability in highly stressed, near-surface
rock strata. Canadian
Geotechnical Journal, 19, 4, 451
-
462.
Romana, M. 1991. SMR Classi
cation. Proceedings 7th Congress Rock Mechanics,
ISRM. Aachen, Germany, 2, 955
-
960.
Roscoe, K.H., Scho
eld, A.N. & Wroth, C.P. 1958. On the yielding of soils.
Géotechnique,8,22
-
53.
Ruxton, B.P. & Berry, L. 1957 The weathering of granite and associated erosional
features in Hong Kong. Bulletin of the Geological Society of America, 68, 1263
1292.
Sadiq, A.M. & Nasir, S.J. 2002. Middle Pleistocene karst evolution in the State of
Qatar, Arabian Gulf. Journal of Cave and Karst Studies, 64, 132
-
139.
Salehy, M.R., Money, M.S. & Dearman, W.R. 1977. The occurrence and
engineering properties of intra-formational shears in Carboniferous rocks. In
Proceedings Conference on Rock Engineering, Newcastle, Attewell, P.B. (ed.),
Newcastle: London, 311
-
328.
Santamarina, J.C. & Cho, G.C. (2004). Soil behaviour: The role of particle shape. In
Advances in Geotechnical Engineering: The Skempton Conference, Jardine, R.J.
et al. (eds.), 29
-
617.
Sarma, S.K. 1975. Seismic stability of earth dams and embankments. Géotechnique,
25, 743
-
31 March 2004, London: Thomas Telford 1, 604
-
761.
Sausse, J. & Genter, A. 2005. Types of permeable fractures in granite. Geological
Society, London, Special Publications 2005, 240, 1
-
14.
Schmidt, B. 1966. Discussion on earth pressures at rest related to stress history.
Canadian Geotechnical Journal, 3, 239
-
242.
Schneider, H.J. 1976. The friction and deformation behaviour of rock joints. Rock
Mechanics, 8, 169
-
-
184.
Scho
eld, A.N. 2006. Interlocking, and peak and design strengths. Géotechnique, 56,
358.
Scholz, C.H. 1990. The Mechanics of Earthquakes and Faulting. Cambridge:
Cambridge University Press, 439p.
Seed, H.B., Idriss, I.M. &Kiefer, F.W. 1968. Characteristics of Rock Motions during
Earthquakes, EERC 68
357
-
-
5, University of California, Berkeley, September.
Seed, H.B. & Idriss, I.M. 1982. Ground Motions and Soil Liquefaction during
Earthquakes, Monograph No. 5, Earthquake Engineering Research Institute,
Berkeley, California, 134p.
Selby, M.J. 1993. Hillslope Materials and Processes, 2nd edition. Oxford: Oxford
University Press, 451p.
Seol, H. & Jeong, S. 2009. Load-settlement behavior of rock-socketed drilled shafts
using Osterberg-Cell tests. Computers and Geotechnics, 36, 1134
1141.
Sewell, R.J., Campbell, S.D.G., Fletcher, C.J.N., Lai, K.W. & Kirk, P.A. 2000. The
Pre-Quaternary Geology of Hong Kong. Geotechnical Engineering Of
-
ce, Civil
Engineering Department, Hong Kong SAR Government, 181p plus 4 maps.
Shaw, R. & Owen, R.B. 2000. Geomorphology and ground investigation planning.
Proceedings Conference on Engineering Geology HK 2000, Institution of Mining
and Metallurgy, Hong Kong, 151
163.
Shibata, T. & Taparaska, W. 1988. Evaluation of liquefaction potential of soil using
cone penetration tests. Soils and Foundations, 28, 49
-
-
60.
Shirlaw, J.N. 2006. Discussion: Hull wastewater
flow transfer tunnel: tunnel collapse
and causation investigation. Geotechnical Engineering, 2, 126
127.
Shirlaw, J.N., Broome, P.B., Chandrasegaran, S., Daley, J., Orihara, K., Raju, G.V.R.,
Tang, S.K., Wong, K.S. & Yu, K. 2003. The Fort Canning Boulder Bed.
Underground Singapore 2003. Engineering Geology Workshop, 388
-
-
407.
