Numerical Modelling of Oedometer Test

Agraine, Hana; Bouali, Meriem Fakhreddine

doi:10.1515/sspjce-2020-0025

References

[1] Ali Bouafia, Mouna Mir. (2010). Introduction à la mécanique des sols - Cours et Applications (CD-Rom inclus), 1e édition octobre 2010 (pp.117-144); Publisher: éditions Pages Bleues Internationales, Alger.
Search in Google Scholar Back to article
[2] Terzaghi K. 1923. Die Berechnung der Durchlässigkeit des Tones aus dem Verlauf der hydrodynamischen Spannungserscheinungen. Akademie der Wissenschaften, Wien, Sitzungsberichte, Math. Naturwiss. KJasse, part. Ii-a, vol. 132 (3/4), pp. 125–138.
Search in Google Scholar Back to article
[3] Buisman, A. S. (1936). Results of long duration settlement tests. In Proc. 1st ICSMFE (Vol. 1, pp. 103-107). Cambridge.
Search in Google Scholar Back to article
[4] Biot, M. A. (1941). General theory of three dimensional consolidation. Journal of applied physics, 12 (2), 155-164.10.1063/1.1712886
Search in Google Scholar Back to article
[5] Koppejan, A. W. (1948). A formula combining the Terzaghi load compression relationship and the Buisman secular time effect. Proc. 2nd ICSMFE, Rotterdam, 1948, 3, 32-37.
Search in Google Scholar Back to article
[6] Gibson, R. E. (1961). A theory consolidation for soils exhibiting secondary compression. Report, 41.
Search in Google Scholar Back to article
[7] Gibson, R. E., Schiffman, R. L., & Cargill, K. W. (1981). The theory of one-dimensional consolidation of saturated clays. II. Finite nonlinear consolidation of thick homogeneous layers. Canadian geotechnical journal, 18(2), 280-293.10.1139/t81-030
Search in Google Scholar Back to article
[8] Poskitt, T. J. (1969). The consolidation of saturated clay with variable permeability and compressibility. Geotechnique, 19(2), 234-252.10.1680/geot.1969.19.2.234
Search in Google Scholar Back to article
[9] Magnan, J. P. (1986). Modélisation numérique du comportement des argiles molles naturelles (Doctoral dissertation).
Search in Google Scholar Back to article
[10] Magnan JP, Baghery S, Brucy M, Tavenas F. (1979). Étude numérique de la consolidation unidimensionnelle en tenant compte des variations de la perméabilité et de la compressibilité du sol, du fluage et de la non- saturation. Bull Liaison Lab Ponts Chaussées 103: 83–94.
Search in Google Scholar Back to article
[11] Mesri, G. (1973). Coefficient of secondary compression. ASCE J Soil Mech Found Div-v 99, (SM1), 123-137.10.1061/JSFEAQ.0001840
Search in Google Scholar Back to article
[12] Tavenas, F., Brucy, M., Magnan, J. P., La Rochelle, P., & Roy, M. (1979). Analyse critique de la théorie de consolidation unidimensionnelle de Terzaghi. Revue Française de Géotechnique, (7), 29-43.10.1051/geotech/1979007029
Search in Google Scholar Back to article
[13] L. Arabet. (2011). Modélisation numérique du tassement et de la consolidation des sols sous l’oedomètre, Pan-Am CGS Geotechnical Conference.
Search in Google Scholar Back to article
[14] Agraine, H., Bouali, M. F., & Messameh, A. (2020). Numerical Analysis of One-Dimensional Consolidation in Fine-Grained Soils. In Key Engineering Materials (Vol. 857, pp. 334-340). Trans Tech Publications Ltd.10.4028/www.scientific.net/KEM.857.334
Search in Google Scholar Back to article
[15] Klai, M., Bouassida, M., & Tabchouche, S. (2015). Numerical modelling of Tunis soft clay. Geotech Eng J SEAGS AGSSEA, 46(4), 87-95.
Search in Google Scholar Back to article
[16] R.B.J. Brinkgreve, PLAXIS. (2002). Version 8, Balkema.
Search in Google Scholar Back to article
[17] Karkush, M. O., & Ali, S. D. (2020). Impacts of lead nitrate contamination of the geotechnical properties of clayey soil. Journal of Engineering Science and Technology, 15(2), 1032-1045.
Search in Google Scholar Back to article

Numerical Modelling of Oedometer Test

References

Paradigm

My account