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Home Home (en) All issues No 168 (2021) Rev. Fr. Geotech., 168 (2021) 4 References
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Issue
Rev. Fr. Geotech.
Number 168, 2021
Modélisation Physique en Géotechnique - Partie 2
Article Number 4
Number of page(s) 14
DOI https://doi.org/10.1051/geotech/2021014
Published online 07 May 2021
  • Beguin R. 2011. Étude multi-échelle de l’érosion de contact au sein des ouvrages hydrauliques en terre. Thèse, Université Joseph Fourier, Grenoble, France. HAL Id: tel-00680078, version 1. [Google Scholar]
  • Beguin R, Fry J-J, Picault C, Courivaud J-R, Faure Y-H, Philippe P. 2012. Control of the risk of dike failure caused by contact erosion. In: Proceedings of International Conference on Scour and Erosion ICSE-6, Paris. [Google Scholar]
  • Beguin R, Philippe P, Faure Y-H, Guidoux C. 2013a. Contact erosion between two soils. In: Erosion of Geomaterials. https://doi.org/10.1002/9781118561737.ch4. [Google Scholar]
  • Beguin R, Philippe P, Faure Y-H. 2013b. Pore-scale flow measurements at the interface between a sandy layer and a model porous medium: Application to statistical modeling of contact erosion. J Hydraul Eng 139(1): 1–11. https://doi.org/10.1061/(ASCE)HY1943-7900.0000641. [Google Scholar]
  • Bezuijen A, Klein Breteler M, Bakker K-J. 1987. Design criteria for placed block revetments and granular filters. In: Proceedings 2nd International Conference on Coastal and Port Engineering in Developing Countries, Beijing. [Google Scholar]
  • Brauns J. 1985. Erosionsverhalten geschichteten Bodens bei horizontaler Durchstromung. Wasserwirtschaft 75: 448–453. [Google Scholar]
  • Brinkgreve RBJ, Kumarswamy S, Swolfs WM, Waterman D, Chesaru A, Bonnier PG. 2016. PLAXIS 2016. PLAXIS bv. The Netherlands. [Google Scholar]
  • Chevalier C, Bonelli S. 2017. Érosion interne dans les ouvrages hydrauliques (Volume 1) : Méthodologie de caractérisation expérimentale. Presses des Ponts. ISBN: 978-2-85978-500-0. [Google Scholar]
  • CIGB. 2016. Bulletin 164 on Internal erosion in existing dams, dikes and levees and their foundations. [Google Scholar]
  • COMSOL Multiphysics® v. 5.4. COMSOL AB, Stockholm, Sweden. www.comsol.com. [Google Scholar]
  • Esnault Filet A, Gutjahr I, Garandet A, Viglino A, Beguin R, Sibourg O, et al. 2019. BOREAL, Bio-renforcement des ouvrages hydrauliques en remblais. In: Digues 2019 : 3e Colloque sur les Digues Maritimes et Fluviales de Protection contre les Inondations, 20–21 mars 2019, Aix-en-Provence. https://doi.org/10.5281/zenodo.2532995. [Google Scholar]
  • Fell R, Fry J. 2007. Internal erosion of dams and their foundations. Taylor & Francis. [Google Scholar]
  • François D, Meriaux P, Monnet J. 2013. Recommandations ERINOH (Volume 2) : Méthodologie de diagnostic de l’érosion interne dans les digues en remblai. In: Colloque National Digues Maritimes et Fluviales de Protection contre les Submersions, Aix-en-Provence, France, hal-01509571, version 1. [Google Scholar]
  • Fry J-J, Beguin R, Picault C, Mathieu F, Esnault Filet A, Mosser J-F. 2015. Analyse et traitement de l’érosion interne : procédés classiques et nouveaux. In: Congrès CIGB 2015 à Stavanger, Norvège. Q98 R39. [Google Scholar]
  • Guidoux C, Faure Y-H, Beguin R, Ho C-C. 2010. Contact erosion at the interface between granular coarse soil and various base soils under tangential flow condition. J Geotech Geoenviron Eng 136(5): 741–750. https://doi.org/10.1061/(ASCE)GT.1943-5606.0000268. [Google Scholar]
  • Istomina V-S. 1957. Soil stability to seepage. Moscou. [Google Scholar]
  • Picault C, Courivaud J-R, Beguin R, Philippe P. 2019. Justification de la stabilité d’une recharge granulaire aval sur les digues de canaux : développement d’un critère de rupture par claquage. In: Proceedings of Justification des barrages : état de l’art et perspectives, Chambéry, CFBR. https://doi.org/10.24346/cfbr_colloque2019_c28. [Google Scholar]
  • Sherard JL, Dunnigan LP. 1989. Critical filters for impervious soils. J Geotech Eng 115(7): 927–947. https://doi.org/10.1061/(ASCE)0733-9410(1989)115:7(927). [Google Scholar]
  • Skoglund M, Solvik Ø. 1995. External and internal erosion in rockfill dams. Int J Hydropower Dams 2(3): 44–47. [Google Scholar]
  • TERRASOL. 2005. TALREN-Logiciel pour l’analyse de la stabilité des structures géotechniques. Montreuil : Terrasol. [Google Scholar]
  • Terzaghi K. 1939. Soil mechanics: a new chapter in engineering science. J Int Civil Eng, 106–141. [Google Scholar]
  • Wörman A, Olafsdottir R. 1992. Erosion in a granular medium interface. J Hydraul Res 30(5): 639–655. https://doi.org/10.1080/00221689209498885. [Google Scholar]
  • Zoueshtiagh F, Merlen A. 2007. Effect of a vertically flowing water jet underneath a granular bed. Phys Rev E 75(5). https://doi.org/10.1103/PhysRevE.75.056313. [CrossRef] [Google Scholar]

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