참고문헌
- Almeida, M.S.S., Magnani, H.O., Dias, D. and Deotti, L.O.G. (2011), "Behaviour of three test embankments taken to failure on soft clay", Soil Rock., 34(4), 389-404
- Briancon, L. and Dias, D. (2015), "Monitoring and numerical investigation of rigid inclusions reinforced industrial building", Can. Geotech. J., 52(10), 231-245.
- BS8006, British Standards (1995), "Code of Practice for Strengthened/Reinforced Soils and Other Fills", Section 8: Design of Embankments with Reinforced Soil Foundation on Poor Ground, British Standard Institution, London, 80-121.
- Chore, H.S., Ingle, R.K. and Sawant, V.A. (2014), "Non linear soil structure interaction of space frame-pile foundation-soil system", Struct. Eng. Mech., 49(1), 95-110 https://doi.org/10.12989/sem.2014.49.1.095
- Combarieu, O. (1988), "Amelioration des sols par inclusions rigides verticales. Application a l'edification de remblais sur sols mediocres", Revue Francaise de Geotechnique, 44, 57-79. (in French)
- Dias, D. and Simon, B. (2015), "Spread foundations on rigid inclusions subjected to complex loading: Comparison of 3D numerical and simplified analytical modelling", Am. J. Appl. Sci., 10(9), 1025-1038. https://doi.org/10.3844/ajassp.2013.1025.1038
- Doran, B. and Seckin, A. (2014), "Soil-pile interaction effects in wharf structures under lateral loads", Struct. Eng. Mech., 51(2), 267-276. https://doi.org/10.12989/sem.2014.51.2.267
-
Exbrayat L., Nancey, A., Grippon, J. and Durand, S., (2011), Remblai sur inclusiosn rigides renforce par geosynthetqiues: RD 106 Bourgoin-Jallieu (38),
$8^{eme}$ rencontres geosynthetiques, Tours, France. - Girout, R., Blanc, M., Dias, D. and Thorel, L. (2014), Numerical investigation of a load transfer platform above a piled network reinforced with geosynthetic-Validation on centrifuge tests", Geotext. Geomembran., 42(5), 525-539. https://doi.org/10.1016/j.geotexmem.2014.07.012
- Guido, V.A., Kneuppel, J.D. and Sweeny, M.A. (1987), "Plate loading tests on geogridreinforced earth slabs", Proceedings of the Geosynthetics '87, New Orleans, USA.
- Habib, H.A.A., Brugman, M.H.A. and Uijting, B.G.J. (2002), "Wid- ening of Road N247 founded on a geogrid reinforced mattress on piles", Proc., 7th Int. Conf. on Geosynthetics, Swets & Zeitlinger, Nice, France.
- Hassen, G., Dias, D. and De Buhan, P. (2009), "A multiphase constitutive model for the design of piled-embankments. Comparison with 3D numerical simulations", Int. J. Geomech., 9(6), 258-266. https://doi.org/10.1061/(ASCE)1532-3641(2009)9:6(258)
- Hewlett, W.J. and Randolph, M.F. (1988), "Analysis of piled embankment", Ground Eng., 21(3), 12-18.
- Jenck, O., Dias, D. and Kastner, R. (2005), "Soft ground improvement by vertical rigid piles-two-dimensional physical modelling and comparison with current design methods", Soil. Found., 45(6), 15-31. https://doi.org/10.3208/sandf.45.15
- Jenck, O., Dias, D. and Kastner, R. (2007), "Two-dimensional physical and numerical modeling of a pile supported earth platform over soft soil", J. Geotech. Geoenviron. Eng., 133(3), 295-305. https://doi.org/10.1061/(ASCE)1090-0241(2007)133:3(295)
- Jenck, O., Dias, D. and Kastner, R. (2009), "Discrete element modeling of a granular platform supported by piles in soft soil - Validation on a small scale model test and comparison to a numerical analysis in a continuum", Comput. Geotech., 36, 917-927. https://doi.org/10.1016/j.compgeo.2009.02.001
- Jenck, O., Dias, D., Kastner, R. (2009), "Three-dimensional numerical modeling of a pile embankment", Int. J. Geomech., 9, 102 https://doi.org/10.1061/(ASCE)1532-3641(2009)9:3(102)
- Kempfert, H.G., Gobel, C., Alexiew, D. and Heitz, C. (2004), "German recommandations for reinforced embankments on pile-similar ele- ments", Proc., 3rd European Geosynthetics Conf., Deutsche Gesell- schaft fur Geotechnik, Munich, Germany.
- Kempton, G., Russell, D., Pierpoint, N.D. and Jones, C.J.F.P. (1998), "Two- and three-dimensional numerical analysis of the performance of piled embankments", Proc., 6th Int. Conf. on Geosynthetics, Industrial Fabrics Association International, Atlanta, USA.
- Love, J.P. and Milligan, G.W.E. (2003), "Design methods for basally reinforced pile supported embankments over soft ground", Ground Eng., 36(3), 39-43.
- Low, B.K., Tang, S.K. and Choa, V. (1994), "Arching in piled embank- ments", J. Geotech. Eng., 120(11), 1917-1938. https://doi.org/10.1061/(ASCE)0733-9410(1994)120:11(1917)
- Mehndiratta, S., Sawant, V.A. and Samadhiya, N.K. (2014), "Nonlinear dynamic analysis of laterally loaded pile", Struct. Eng. Mech., 49(4), 479-489. https://doi.org/10.12989/sem.2014.49.4.479
- Mohammed, Y.F., Mustafa, A.Y. and Sarmad, M.K. (2015), "Effect of pile group geometry on bearing capacity of piled raft foundations", Struct. Eng. Mech., 54(5), 829-853. https://doi.org/10.12989/sem.2015.54.5.829
- Naughton, P.J. and Kempton, G.T. (2005), "Comparison of analytical and numerical analysis design methods for piled embankments", Proc., Geo-Frontiers 2005, ASCE, Reston, VA.
- Nunez, M., Briancon, L. and Dias, D. (2013), "Analyses of a pilesupported embankment over soft clay: Full-scale experiment, analytical and numerical approaches", Eng. Geology, 153, 53-67. https://doi.org/10.1016/j.enggeo.2012.11.006
- Nunez, M.A., Dias, D., Poilpre, C. and Kastner, R. (2007), "Influence of vertical rigid piles as ground improvement technique over a roadway embankment. 2D and 3D numerical modelling", 5th International Workshop on Application of Computational Methods in Geotechnical Engineering, Guimaraes, Portugal.
- Okyay, U.S. and Dias, D. (2010), "Use of lime and cement treated soils as pile supported load transfer platform", Eng. Geology, 114(1-2), 34-44. https://doi.org/10.1016/j.enggeo.2010.03.008
- Okyay, U.S., Dias, D., Billion, P., Vandeputte, D. and Courtois, A. (2012), "Impedance functions of slab foundations with rigid piles", Geotech. Geolog. Eng., 13, 58-71.
- Okyay, U.S., Dias, D., Thorel, L. and Rault, G. (2014), "Centrifuge modelling of a pile supported earth granular platform", J. Geotech. Geoenviron. Eng., 140, 2
- Plaxis (2016), "Plaxis geotechnical finite element software", Reference Manual, 230.
- Quigley, P., O'Malley, J. and Rodgers, M. (2003), "Performance of a trial embankment constructed on soft compressible estuarine deposits at Shannon, Ireland", Proc., Int. Workshop on Geotechnics of Soft Soils, Theory and Practice, Verlag Gluckauf, Noordwijkerhout, The Netherlands.
- Rajib, S., Sekhar, C.D. and Sumanta, H. (2015), "Effect of raft and pile stiffness on seismic response of soil-piled raft-structure system", Struct. Eng. Mech., 55(1), 161-189. https://doi.org/10.12989/sem.2015.55.1.161
- Rogbeck, Y., Gustavson, S., Sodergren, I. and Lindquist, D. (1998), "Reinforced pile embankments in Sweden - design aspects", Proceedings 6th Int. Conf. on Geosynthetics, Atlanta, II, 755-762.
- Russell, D. and Pierpoint, N. (1997), "An assessment of design methods for piled embankments", Ground Eng., 30(11), 39-44.
- Shankar, S., Loganathan, P. and Johnney Mertens, A. (2015), "Analysis of pile-up/sink-in during spherical indentation for various strain hardening levels", Struct. Eng. Mech., 53(3), 429-442. https://doi.org/10.12989/sem.2015.53.3.429
- Stewart, M.E. and Filz, G.M. (2005), "Influence of clay compressibility on geosynthetic loads in bridging layers for column-supported em- bankments", Proc., Geo-Frontiers, ASCE, Austin, Tex.
- Svano, G., Ilstad, T., Eiksund, G. and Want, A. (2000), "Alternative calculation principle for design of piles embankments with base rein- forcement", Proc., 4th Int. Conf. of Ground Improvement Geosystem, Finnish Geotechnical Society, Helsinki, Finland.
- Terzaghi, K. (1943), Theoretical Soil Mechanics, Wiley and Sons, New York.
- Wood, H.J. (2003), "The design and construction of pile-supported em- bankments for the A63 Selby Bypass", Proc., Foundations: Innova- tions, Design and Practice, Dundee, Scotland.
- Zanziger, H. and Gartung, E. (2002), "Performance of a geogrid reinforced railway embankment on piles", Proc., 7th Int. Conf. on Geo- synthetics, Swets & Zeitlinger, Nice, France.
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