Geoscience Reference
In-Depth Information
BonillaMG(1970)Surfacefaultingandrelatedeffects.In:WiegelRL(ed)Earthquakeengineering.
New Jersey:Prentice Hall, pp47-74
Bray JD (1990) The effects of tectonic movements on stresses and deformations in earth embank-
ments. Ph.D. Dissertation, University ofCalifornia, Berkeley
Bray JD (2001) Developing mitigation measures for the hazards associated with earthquake sur-
face fault rupture. In: A Workshop on Seismic Fault-Induced Failures—Possible Remedies for
Damage to Urban Facilities, Japan Society for the Promotion of Science, University of Tokyo,
Japan, January 11-12,pp 55-79
BrayJD,AshmawyA,MukhopadhyayG,GathEM(1993)Useofgeosyntheticstomitigateearth-
quake fault rupture propagation through compacted fill. Proceedings of the Geosynthetics'93
Conference 1:379-392
Bray JD, Seed RB, Cluff LS, Seed HB (1994a) Earthquake fault rupture propagation through soil.
Journal of Geotechnical Engineering, ASCE120(3):543-561
Bray JD, Seed RB, Seed HB (1994b) Analysis of earthquake fault rupture propagation through
cohesive soil.Journal of Geotechnical Engineering, ASCE,120(3):562-580
Brune JN, Allen CR (1967) A low-stress-drop, low magnitude earthquake with surface faulting.
TheImperial,California,EarthquakeofMarch4,1966.BulletinoftheSeismologicalSocietyof
America 57:501-514
Budhu M (1984) Non-uniformities imposed by simple shear apparatus. Canadian Geotechnical
Journal 21(1):125-137
BuwaldaJP,St.AmandP(1955)GeologicalEffectsoftheArvin-TehachapiEarthquake,California
Division of Mines, Bulletin171, pp 41-56
Cole DA Jr., Lade PV (1984) Influence zones in alluvium over dip-slip faults. Journal of Geotech-
nical Engineering, ASCE 110(5):599-615
El Nahas A, Bransby MF, Davies MCR (2006) Centrifuge modelling of the interaction between
normal fault rupture and rigid, strong raft foundations. Proceedings of International Conference
on Physical Modelling in Geotechnics, Hong Kong, August, pp 337-342
Erickson SG, Staryer LM, Suppe J (2001) Initiation and reactivation of faults during move-
ment over a thrust-fault ramp: Numerical mechanical models. Journal of Structural Geology
23:11-23
Eurocode EC8 (1994) Structures in seismic regions. Part 5: Foundations, retaining structures, and
geotechnical aspects. Brussels:Commission of the European Communities
Friedman M, Handin J, Logan JM, Min KD, Stearns DW (1976) Experimental folding of rocks
under confining pressure: Part III. Faulted drape folds in multilithologic layered specimens.
Bulletin of the Geological Society of America, July,87:1049-1066
Gaudin C (2002) Experimental and theoretical study of the behaviour of supporting walls: Valida-
tion of design methods. Ph.D. Dissertation, Laboratoire Central des Ponts et Chauss´ees, Nantes,
France
Gerolymos N, Apostolou M, Gazetas G (2005) Neural network analysis of overturning response
under near-fault type excitation. Earthquake Engineering and Engineering Vibration, 4(2):
213-228
Gerolymos N, Vardoulakis I, Gazetas G (2007) “A thermo-poro-viscoplastic shear band model
for seismic triggering and evolution of catastrophic landslides”. Soils and Foundations, 47(1):
11-25
Horsfield WT (1977) An experimental approach to basement-controlled faulting. Geologie
EnMijnboyw, 56(4):363-370
Jewell RA, Roth CP(1987) Direct shear tests on reinforced sand. G´eotechnique, 37(1):53-68
