Open Access
Issue
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 76, 2021
Article Number 35
Number of page(s) 16
DOI https://doi.org/10.2516/ogst/2021016
Published online 19 May 2021
  • Wyllie D.C., Norrish N.I. (1996) Rock strength properties and their measurement, TRB Special Report 247, pp. 372–390. [Google Scholar]
  • Wyllie D.C. (2014) Rock fall engineering, CRC Press. [Google Scholar]
  • Byerlee J. (1978) Friction of rocks, in: Byerlee J.D., Wyss M. (eds), Rock friction and earthquake prediction, Birkhäuser, Basel, pp. 615–626. [Google Scholar]
  • Barton N. (1973) Review of a new shear-strength criterion for rock joints, Eng. Geol. 7, 4, 287–332. [Google Scholar]
  • Jaeger J.C., Cook N.G., Zimmerman R. (2009) Fundamentals of rock mechanics, John Wiley & Sons. [Google Scholar]
  • Yukutake Y., Takeda T., Yoshida A. (2015) The applicability of frictional reactivation theory to active faults in Japan based on slip tendency analysis, Earth Planet Sci. Lett. 411, 188–198. [Google Scholar]
  • Middleton T.A., Copley A. (2014) Constraining fault friction by re-examining earthquake nodal plane dips, Geophys. J. Int. 196, 2, 671–680. [Google Scholar]
  • Alber M. (2013) Strength of faults – A concern for mining engineers? in: ISRM International Symposium-EUROCK 2013, International Society for Rock Mech Rock Eng. [Google Scholar]
  • Tamura H., Kambayashi Y. (2016) Estimation of the coefficient of static friction of surface by analyzing photo images, in: Czarnowski I., Caballero A., Howlett R., Jain L. (eds), Intelligent Decision Technologies 2016, Springer, Cham, pp. 15–26. [Google Scholar]
  • Hencher S.R. (1989) Laboratory direct shear testing of rock discontinuities, Ground Eng. 22, 2, 24–31. [Google Scholar]
  • Hencher S.R. (1995) Interpretation of direct shear tests on rock joints, in: Proceedings 35th US Symposium on Rock Mechanics, Lake Tahoe, pp. 99–106. [Google Scholar]
  • Hencher S.R. (2012) Discussion of Alejano, Gonzalez and Muralha (2012), Rock. Mech. Rock. Eng. 45, 6, 1137–1139. [Google Scholar]
  • Ghani R.A., Goh T.L., Hariri A.M., Baizura Y.N. (2011) Field and laboratory-based approach for the determination of friction angle of geological discontinuities of Malaysian granites, ASEAN J. Sci. Technol. Dev. 28, 2, 151–155. [Google Scholar]
  • Boulton C., Barth N.C., Moore D.E., Lockner D.A., Townend J., Faulkner D.R. (2018) Frictional properties and 3-D stress analysis of the southern Alpine Fault, New Zealand, J. Struct. Geol. 114, 43–54. [Google Scholar]
  • Jeanne P., Rutqvist J., Foxall W., Rinaldi A.P., Wainwright H.M., Zhou Q., Birkholzer J., Layland-Bachmann C. (2017) Effects of the distribution and evolution of the coefficient of friction along a fault on the assessment of the seismic activity associated with a hypothetical industrial-scale geologic CO2 sequestration operation, Int. J. Greenh. Gas Control 66, 254–263. [Google Scholar]
  • Anderson E.M. (1951) The dynamics of faulting and dyke formation with applications to Britain, Oliver and Boyd. [Google Scholar]
  • Binh N.T.T., Tokunaga T., Okui A. (2004) In-situ stress and pore pressure fields in the North Cuu Long Basin, offshore Vietnam, in: SPE Asia Pacific Conference on Integrated Modelling for Asset Management, Society of Petroleum Engineers. [Google Scholar]
  • Binh N.T.T., Tokunaga T., Goulty N.R., Son H.P., Van Binh M. (2011) Stress state in the Cuu Long and Nam Con Son basins, offshore Vietnam, Mar. Pet. Geol. 28, 5, 973–979. [Google Scholar]
  • Gan Q., Elsworth D. (2014) Analysis of fluid injection-induced fault reactivation and seismic slip in geothermal reservoirs, J. Geophys. Res. Solid Earth 119, 4, 3340–3353. [Google Scholar]
  • Lama R.D., Vutukuri V.S. (1978) Handbook on mechanical properties of rocks-testing techniques and results-volume iii, Vol. 3, No. 2, Trans Tech Publications. [Google Scholar]
  • Son H.V., Khanh P.D., Dung P.T. (2015) Analyzing the effect of the stress field on the wellbore stability, Bachelor thesis, Ho Chi Minh University of Technology, Vietnam. [Google Scholar]
  • Sato K. (2016) A computerized method to estimate the friction coefficient from the orientation distribution of Meso-scale faults, J. Struct. Geol. 89, 44–53. [Google Scholar]
  • Gephart J.W., Forsyth D.W. (1984) An improved method for determining the regional stress tensor using earthquake focal mechanism data: application to the San Fernando earthquake sequence, J. Geophys. Res. Solid Earth 89, B11, 9305–9320. [Google Scholar]
  • Michael A.J., Geller R.J. (1984) Linear moment tensor inversion for shallow thrust earthquakes combining first-motion and surface wave data, J. Geophys. Res. Solid Earth 89, B3, 1889–1897. [Google Scholar]
  • Holloway N.H. (1982) North Palawan block, Philippines – Its relation to Asian mainland and role in evolution of South China Sea, Am. Assoc. Pet. Geol. Bull. 66, 9, 1355–1383. [Google Scholar]
  • Ru K., Pigott J.D. (1986) Episodic rifting and subsidence in the South China Sea, Am. Assoc. Pet. Geol. Bull. 70, 9, 1136–1155. [Google Scholar]
  • Taylor B., Hayes D.E. (1983) Origin and history of the South China Sea basin, GMS 27, 23–56. [Google Scholar]
  • Angelier J. (1994) Fault slip analysis and Paleostress reconstruction, in: Continental deformation, P.L. Hancock (ed), Pergamon Press, Oxford, pp. 53–100. [Google Scholar]
  • Delvaux D., Sperner B. (2003) New aspects of tectonic stress inversion with reference to the TENSOR program, Geol. Soc. Spec. Publ., London 212, 1, 75–100. [Google Scholar]
  • Allmendinger R.W., Cardozo N., Fisher D.M. (2012) Structural geology algorithms: Vectors and tensors, Cambridge University Press. [Google Scholar]
  • Angelier J. (1989) From orientation to magnitudes in paleostress determinations using fault slip data, J. Struct. Geol. 11, 1–2, 37–50. [Google Scholar]
  • Hyosung Co. Ltd (2018) LPG Underground Storage Project in Mined Rock Cavern in Cai Mep – Geological Investigation Report, Hyosung Co. Ltd. [Google Scholar]
  • Thuc P.D. (2018) Researching and proposing engineering and technical solutions to improve oil recovery coefficient at the last stage of fractured basement reservoir in White Tiger field. Part II: Evaluation of the effectiveness of maintenance reservoir pressure, exploitation status of each region, existence and causes, Petroleum Magazine, Vietsovpetro. [Google Scholar]
  • Wyllie D.C., Mah C.W. (2004) Rock slope engineering: Civil and Mining, CRC Press. [Google Scholar]
  • Allmendinger R.W. (2018) Stereonet 10, accessed 1, 11, 2018. [Google Scholar]
  • Gzovsky M.V. (1975) Basics of tectonophysics, Science Moscow, p. 535. [Google Scholar]
  • Sibson R.H. (1985) A note on fault reactivation, J. Struct. Geol. 7, 6, 751–754. [Google Scholar]
  • King G.C., Stein R.S., Lin J. (1994) Static stress changes and the triggering of earthquakes, Bull. Seismol. Soc. Am. 84, 3, 935–953. [Google Scholar]
  • Toda S., Stein R.S., Sevilgen V., Lin J. (2011) Coulomb 3.3 Graphic-rich deformation and stress-change software for earthquake, tectonic, and volcano research and teaching – user guide, US Geological Survey Open-File Report 1060, p. 63. [Google Scholar]
  • Yin Z.M., Ranalli G. (1995) Estimation of the frictional strength of faults from inversion of fault-slip data: a new method, J. Struct. Geol. 17, 9, 1327–1335. [Google Scholar]
  • Sibson R.H. (2000) Fluid involvement in normal faulting, J. Geodyn. 29, 3–5, 469–499. [Google Scholar]
  • Barton N.C., Choubey V.V. (1976) The shear strength of rock joints in theory and practice, Rock. Mech. Rock. Eng. 10, 1–54. [Google Scholar]
  • Loc N.L., Linh D.V., Van D.Q., Sang N.T., Tan V.T., Ngoc P.Q., Dien T.N. (2020) Study on recent stress change in the Tuy Hoa – Vung Tau marine region arising from oil and gas exploitation activities, J. Geol. 117–133. [Google Scholar]
  • Kim T., Zhang N., Jeon S. (2013) A study on shear characteristics of a smooth rock surface under different thermal, hydro and mechanical conditions, in: ISRM International Symposium-EUROCK 2013, International Society for Rock Mech Rock Eng. [Google Scholar]
  • Dung T.Q., Dung P.T., Ha L.T., Thuan N.V. (2020) Applying geomechanical model and critical stress to identify open fractures in basement reservoir, Petrovietnam J. 3, 30–37. [Google Scholar]

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