Open Access
Issue
Oil & Gas Science and Technology - Rev. IFP
Volume 55, Number 6, November-December 2000
Page(s) 583 - 590
DOI https://doi.org/10.2516/ogst:2000043
Published online 01 December 2006
  • Barnichon, J.D. (1998) Finite Element Modelling in Structural and Petroleum Geology. Thèse, niversité de Liège.
  • Niño, F.,Chéry, J. et Gratier, J.P. (1998) Mechanical Modelling of the Ventura Basin: Origin of the San Cayetano Thrust Fault and Interaction with the Oak Ridge Fault. Tectonics, 17, 955-972. [CrossRef]
  • Hassani, R. (1994) Modélisation numérique de la déformation des systèmes géologiques. Thèse, université Montpellier II.
  • Charlez, P.A. (1991) Rock Mechanics, Theoretical Fundamentals, vol. 1, Éd. Technip, Paris.
  • Nicolas, A. (1984) Principes de tectonique, Masson, Paris.
  • Ramsay, J.G. et Huber, M.I. (1987) The Techniques of Modern Structural Geology—Folds and Fractures, vol. 2, Academic Press.
  • Lamoureux-Var, V. (1997) Mod諩sation de la compaction dans les bassins sédimentaires, approche mécanique. Thèse, École polytechnique.
  • Cundall, P.A. (1998) Formulation of a Three-Dimensional Distinct Element Model, Part 1: A Scheme to Detect and Represent Contacts in a System Composed of Many Polyhedral Blocks. Int. J. Rock Mech. Min. Sci. & Geomech. Abs., 25, 3, 107-116. [CrossRef]
  • Hart, R., Cundall., P.A. et Lemos, J. (1998) Formulation of a Three-Dimensional Distinct Element Model, Part II: Mechanical Calculations for Motion and Interaction of a System Composed of Many Polyhedral Blocks. Int. J. Rock Mech. Min. Sci. & Geomech. Abs., 25, 3, 117-125. [CrossRef]
  • Gratier, J.P. et Guillier, B. (1993) Compatibility Constraints on Folded and Faulted Strata and Calculation of Total Displacement using Computational Restoration (Unfold Program). Journal of Structural Geology, 15, 3-5, 391-402. [CrossRef]
  • Bennis, C.,Vézien, J.M. et Iglésias, G. (1991) Piecewise Surface Flattening for Non-Distorted Texture Mapping. Computer Graphics, 25, 4, 237-246. [CrossRef]
  • Contreras, J. et Suter, M. (1990) Kinematic Modelling of Cross-Sectional Deformation Sequences by Computer Simulation. Journal of Geophysical Research, 95, 21913-21929. [CrossRef]
  • Dahlstrom, C.D.A. (1969) Balanced Cross Sections. Canadian Journal of Earth Sciences, 6, 743-757. [CrossRef]
  • De Paor, D.G. (1988) Balanced Section in Thrust Belts, Part 1: Construction. The American Association of Petroleum Geologist Bulletin, 72, 1, 73-90.
  • De Paor, D.G. (1988) Balanced Section in Thrust Belts, Part 2: Computerized Line and Area Balancing. Geobyte, mai, 33-37.
  • Suppe, J. (1983) Geometry and Kinematic of Fauld-Bond Folding. American Journal of Science, 283, 684-721. [CrossRef]
  • Waltham, D. (1989) Finite Difference Modelling of Hangingwall Deformation. Journal of Structural Geology, 11, 433-437. [CrossRef]
  • Waltham, D. (1990) Finite Difference Modelling of Sandbox Analogues, Compaction and Detachment Free Deformation. Journal of Structural Geology, 12, 375-381. [CrossRef]
  • Zoetemeijer, R. (1992) Tectonic Modelling of Forelands Basins, Thin Skinned Thrusting, Syntectonic Sedimentation and Lithospheric Flexure. Thèse, Vrije Universiteit Amsterdam.
  • Shaw, J.H.,Hook, S.C. et Suppe, J. (1994) Structural Trend Analysis by Axial Surface Mapping. AAPG Bulletin, 78, 700-721.
  • ScottWilkerson, M. et Medwedeff, D.A. (1991) Geometrical Modeling of Fault-Related Folds: A Pseudo-Three- Dimensional Approach. Journal of Structural Geology, 13, 801-812. [CrossRef]
  • Diviès R. (1997) Foldis : un modèle cinématique de bassins sédimentaires par éléments discrets associant plis, failles, érosion/sédimentation et compaction. Thèse, Joseph-Fourier-Fourier de Grenoble.
  • Merle, O. (1984) Déplacement et déformation des nappes superficielles. Revue de géologie dynamique et géographie physique, 25, 3-17.
  • Gratier, J.P. (1993) Le fluage des roches par dissolutioncristallisation sous contrainte, dans la croûte supérieure. Bulletin de la société géologique de France, 164, 2, 267-287.
  • Schneider, F.,Potdevin, J.L. et Wolf, S. (1996) Mechanical and Chemical Compaction Model for Sedimentary Basin Simulators. Tectonophysics, 263, 307-317. [CrossRef]
  • Schneider, F. et Wolf, S. (2000) Quantitative HC Potentiel Evaluation using 3D Basin Modelling: Application to Franklin Structure, Central Graben, North Sea, UK. Marine and Petroleum Geology (in press).
  • Schneider, F.,Wolf, S.,Faille, I. et Pot, D. (2000) A 3D Basin Model for Hydrocarbon Potential Basin Evaluation: Application to Congo Offshore. Oil and Gas Science & Technology, 55, 1, 3-13. [CrossRef] [EDP Sciences] [OGST]
  • Egan, S.,Kane, S.,Buddin, T.,Williams, G. and Hadgetts, D. (1999) Computer Modelling and Visualisation of the Structural Deformation Caused by Movement along Geological Faults. Computers and Geosciences, 25, 283-297. [CrossRef]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.