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All issues Volume 382 (2023) E3S Web of Conf., 382 (2023) 25003 References
Open Access
Issue
E3S Web of Conf.
Volume 382, 2023
8th International Conference on Unsaturated Soils (UNSAT 2023)
Article Number 25003
Number of page(s) 6
Section Poster Presentations
DOI https://doi.org/10.1051/e3sconf/202338225003
Published online 24 April 2023
  1. J. Lőrincz; E. Imre; V. P. Singh. Chapter in Granular Materials. Rijeka: InTech doi: 10.5772/intechopen.69167, (2017) [Google Scholar]
  2. E. Imre (2023) The approximate interpolation in terms of the grading curve. ESB 2021 Conference (submitted). [Google Scholar]
  3. E. Imre; J. Lőrincz, Q. Trang, S. Fityus, J. Pusztai, G. Telekes, T. Schanz, KSCE Journal of Civil Engineering 134, 257-272 (2009) [Google Scholar]
  4. E. Imre, Á. Bálint, Á. L. Nagy, J. Lőrincz, J., Zs. Illés, D. Barreto, F. Casini, G. Guida, S. Feng, Examination of saturated hydraulic conductivity using grading curve functions, in Proc. of ISC6, Budapest, Hungary, 26-29 September 2021, https://doi.org/10.53243/ISC2020-373 (2021) [Google Scholar]
  5. D.G. Fredlund, A. Xing, Can. Geot. J. 31, 521–532 (1994) [CrossRef] [Google Scholar]
  6. E. Imre, C. Hegedűs, S. Kovacs, L. Kovacs, Reducing numerical work in non-linear parameter identification, arXiv:2102.08210 (2021) [Google Scholar]
  7. E. Imre, K. Rajkai, R. Genovese, C. Jommi, J. Lőrincz, L. Aradi, G. Telekes, Soil water-retention curve for fractions and mixtures, in Proc. UNSAT-ASIA, Osaka, 451–45 (2003) [Google Scholar]
  8. E. Imre, K. Rajkai, T. Firgi, Q. Trang, G. Telekes, Closed-form functions for the soil water-retention curve of sand fractions and sand mixtures, in Proc. of 4th Unsat 2006, Carefree, 2408–2419 (2006) [Google Scholar]
  9. E. Imre, K. Rajkai, E. Genovese, S. Fityus, The SWCC transfer functions of sands, in Proc. of 4th Asia Pacific Conf on Unsaturated Soils. Newcastle, Australia, 23.-25.11.2009, 791–797 (2009) [Google Scholar]
  10. E. Imre, K. Rajkai, T. Firgi, I. Laufer, R. Genovese, C. Jommi, Modified grading curve – SWCC relations, in Proc. E-UNSAT, Naple, 39–46 (2012) [Google Scholar]
  11. E. Imre, J. Lőrincz, J P. Rózsa. Characterization of some sand mixtures, in Proc. 12th IACMAG Goa, India, 2064–2075 (2008) [Google Scholar]
  12. E. Imre, J. Lőrincz, E. Gerendai, R. Szalkai, Y. Lins, T. Schanz, Some notes concerning the dry density testing standards. 18th ICSMGE. Paris, 349–352 (2013) [Google Scholar]
  13. E. Imre, J. Lőrincz, M. Hazay, M. Juhász, K. Rajkai, T. Schanz, Y. Lins, V. Singh, Z. Hortobágyi, Sand mixture density, in. UNSAT2014, Sydney Australia, 2-4.07.2014, 691–697. [Google Scholar]
  14. E. Imre, G. Kecskés, K. Rajkai, T. Schanz, Z. Hortobágyi, V.P. Singh, S. Fityus, Sand behaviour in terms of the grading curve, in Proc. 16th ECSMGE 2015, 3753–3758. [Google Scholar]
  15. E. Imre (2015) Soil physical characteristics to solve water flow problems. Thesis submitted at Budapest University of Technology and Economics Habilitation Committee and Doctoral Shoool of the Faculty of Civil Engineering (in Hungarian). [Google Scholar]
  16. A. Baule, F. Morone, H.J. Herrman, H.A. Makse, Rev. M. od. Phys. 90(1):015006 (2018) [CrossRef] [Google Scholar]
  17. E. Imre, D. Barreto, M. Datcheva, V. P. Singh, W. Baille, S. Feng, S. Firgi, Minimum dry density in terms of grading entropy coordinates, (accepted 17ARC 2023) [Google Scholar]
  18. S. Feng, P. J. Vardanega, E. Ibraim, I. Widyatmoko, C. Ojum, Géotechnique 69, 646–654 (2019) [CrossRef] [Google Scholar]

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