This work is licensed under the Creative Commons Attribution 4.0 International License.
Hughes, J. M. O., and Withers, N. J., (1974). Reinforcing of soft cohesive soils with stone columns. Ground Engineering, 1(3), 42–49.HughesJ. M. O.WithersN. J.1974Reinforcing of soft cohesive soils with stone columnsGround Engineering13424910.1016/0148-9062(74)90643-3Search in Google Scholar
Balaam, N. P., and Booker, J. R., (1981). Analysis of rigid rafts supported by granular piles. International Journal for Numerical and Analytical Methods in Geomechanics, 5(4), 379–403.BalaamN. P.BookerJ. R.1981Analysis of rigid rafts supported by granular pilesInternational Journal for Numerical and Analytical Methods in Geomechanics5437940310.1002/nag.1610050405Search in Google Scholar
Sondermann, W., and Wehr, W., (2004). Deep vibro technique. In M. P. Moseley and K. Kirsch (Eds.), Ground Improvement (2nd ed., pp. 57–92). London and New York: Taylor and Francis Group.SondermannW.WehrW.2004Deep vibro techniqueInMoseleyM. P.KirschK.(Eds.),Ground Improvement2nd ed.5792London and New YorkTaylor and Francis Group10.4324/9780203305201_chapter_2Search in Google Scholar
Eiman Fathi, and Reza Mohatasham, (2016). Numerical analysis of the reinforced stone column by geosynthetic on stability of embankment. Proceedings of World Congress on Civil, Structural and Environmental Engineering.FathiEimanMohatashamReza2016Numerical analysis of the reinforced stone column by geosynthetic on stability of embankmentProceedings of World Congress on Civil, Structural and Environmental Engineering10.11159/icgre16.112Search in Google Scholar
Ayadat, T., and Hanna, A. M., (2005). Encapsulated stone columns as a soil improvement technique for collapsible soil. Ground Improvement, 9(4), 137–147.AyadatT.HannaA. M.2005Encapsulated stone columns as a soil improvement technique for collapsible soilGround Improvement9413714710.1680/grim.2005.9.4.137Search in Google Scholar
Gniel, J., and Bouazza, A., (2009). Improvement of soft soils using geogrid encased stone columns. Geotextiles and Geomembranes, 27(3), 167–175.GnielJ.BouazzaA.2009Improvement of soft soils using geogrid encased stone columnsGeotextiles and Geomembranes27316717510.1016/j.geotexmem.2008.11.001Search in Google Scholar
Black, J.A., Sivakumar, V., Madhav, M.R. and McCabe, B. A., Sivakumar, V., Madhav, M. R., and Hamill, G. A., (2007). Reinforced stone columns in weak deposits: laboratory model study. Journal Of Geotechnical and Geoenvironmental Engineering, 133(September), 1154–1161.BlackJ.A.SivakumarV.MadhavM.R.McCabeB. A.SivakumarV.MadhavM. R.HamillG. A.2007Reinforced stone columns in weak deposits: laboratory model studyJournal Of Geotechnical and Geoenvironmental Engineering133September1154116110.1061/(ASCE)1090-0241(2007)133:9(1154)Search in Google Scholar
Sivakumar, V., Boyd, J. L., Black, J. a., and McNeil, J. a., (2010). Effects of granular columns in compacted fills. Proceedings of the ICE - Geotechnical Engineering, 163(4), 189–196.SivakumarV.BoydJ. L.BlackJ. a.McNeilJ. a.2010Effects of granular columns in compacted fillsProceedings of the ICE - Geotechnical Engineering163418919610.1680/geng.2010.163.4.189Search in Google Scholar
Ali, K., Sgahu, J. T., and Sharma, K. G., (2010). Behavior of reinforced stone columns in soft soils : an experimental study. In Indian Geotechnical Conference, GEOtrendz (pp. 620–628). IGS Mumbai Chapter and IIT Bombay.AliK.SgahuJ. T.SharmaK. G.2010Behavior of reinforced stone columns in soft soils : an experimental studyIn Indian Geotechnical Conference, GEOtrendz620628IGS Mumbai Chapter and IIT BombaySearch in Google Scholar
Lee, D.-Y., and Yoo, C.-S., (2011). Laboratory investigation on construction method of geogrid encased stone column. Journal of the Korean Geotechnical Society, 27(2), 73–80.LeeD.-Y.YooC.-S.2011Laboratory investigation on construction method of geogrid encased stone columnJournal of the Korean Geotechnical Society272738010.7843/kgs.2011.27.2.073Search in Google Scholar
Iman Hossein Pour Babaei, (2015). Test embankment on geotextile encased granular columns stabilized soft ground, D.Sc. thesis, COPPE/UFRJ, Rio de Janeiro, Brazil.Iman Hossein Pour Babaei2015Test embankment on geotextile encased granular columns stabilized soft groundD.Sc. thesis,COPPE/UFRJRio de Janeiro, BrazilSearch in Google Scholar
Kousik Deb, and Sunil R. Mohapatra, (2013) Analysis of stone column-supported geosynthetic- reinforced embankments, Applied mathematical modelling 37, 2943–2960.DebKousikMohapatraSunil R.2013Analysis of stone column-supported geosynthetic- reinforced embankmentsApplied mathematical modelling372943296010.1016/j.apm.2012.07.002Search in Google Scholar
Azhani Zukri and Ramil Nazir (2018) Numerical modelling techniques of soft soil improvement via stone columns: A brief review IOP Conf. Ser.: Mater. Sci. Eng. 342 012002ZukriAzhaniNazirRamil2018Numerical modelling techniques of soft soil improvement via stone columns: A brief review IOP Conf. Ser.: Mater. Sci. Eng.34201200210.1088/1757-899X/342/1/012002Search in Google Scholar
Tandel. Y. k., Solanki, C. H., and Desai, A. K., (2012). Numerical modelling of encapsulated stone column-reinforced ground. International Journal of Civil, Structural, Environmental and Infrastructure Engineering, Vol. 2(1), pp. 82–96.TandelY. k.SolankiC. H.DesaiA. K.2012Numerical modelling of encapsulated stone column-reinforced groundInternational Journal of Civil, Structural, Environmental and Infrastructure Engineering218296Search in Google Scholar
Alexiew. D., Brokemper, D., and Lothspeich, S., (2005). Geotextile encased columns (GEC): load capacity, geotextile selection and pre-design graphs. In Proceedings of Geo-Frontiers (pp. 497–510). Austin, Texas, US.AlexiewD.BrokemperD.LothspeichS.2005Geotextile encased columns (GEC): load capacity, geotextile selection and pre-design graphsIn Proceedings of Geo-Frontiers497510Austin, Texas, US10.1061/40777(156)12Search in Google Scholar
Gniel, J., and Bouazza, A., (2010). Construction of geogrid encased stone columns: A new proposal based on laboratory testing. Geotextiles and Geomembranes, 28(1), 108–118.GnielJ.BouazzaA.2010Construction of geogrid encased stone columns: A new proposal based on laboratory testingGeotextiles and Geomembranes28110811810.1016/j.geotexmem.2009.12.012Search in Google Scholar
Guetif M., Bouassida. J., and M. Debats, (2007). Improved soft clay characteristics due to stone column installation. Computers and Geotechnics, 34(2) 104–111.GuetifM.BouassidaJ.DebatsM.2007Improved soft clay characteristics due to stone column installationComputers and Geotechnics34210411110.1016/j.compgeo.2006.09.008Search in Google Scholar
Castro, J., and Karstunen, M., (2010). Numerical simulations of stone column installation. Canadian Geotechnical Journal, 47(10) 1127–1138.CastroJ.KarstunenM.2010Numerical simulations of stone column installationCanadian Geotechnical Journal47101127113810.1139/T10-019Search in Google Scholar
Kirsch F., (2006). Vibro stone column installation and its effect on ground improvement. Proc. Geotechnical Engineering for Urban Environment, 2006 - March 24. Taylor and Francis, Bochum, Germany, 115–124.KirschF2006Vibro stone column installation and its effect on ground improvementProc. Geotechnical Engineering for Urban Environment, 2006 - March 24Taylor and FrancisBochum, Germany115124Search in Google Scholar
Foray P., Laurent B., Etinne F., Serge L., and Ngoc-T.N., (2009). 3D numerical modeling of stone columns and application. Proc. 17th International Conference on Soil Mechanics and Geotechnical Engineering, 3: 2382–2385.ForayP.LaurentB.EtinneF.SergeL.NgocT.N.20093D numerical modeling of stone columns and applicationProc. 17th International Conference on Soil Mechanics and Geotechnical Engineering323822385Search in Google Scholar
Elshazly H., Elkasabgy M., and Elleboudy A., (2008). Effect of inter-column spacing on soil stresses due to vibro-installed stone columns: Interesting findings. Geotechnical and Geological Engineering, 26(2): 225–236.ElshazlyH.ElkasabgyM.ElleboudyA.2008Effect of inter-column spacing on soil stresses due to vibro-installed stone columns: Interesting findingsGeotechnical and Geological Engineering26222523610.1007/s10706-007-9159-ySearch in Google Scholar
Elshazly H., and Hafez, D., (2006). Back calculating vibro installation stresses in stone columns reinforced grounds. Journal of Ground Improvement, 10(2) 47–53.ElshazlyH.HafezD.2006Back calculating vibro installation stresses in stone columns reinforced groundsJournal of Ground Improvement102475310.1680/grim.2006.10.2.47Search in Google Scholar
D. Egan & W. Scott, (2009). Installation effects of vibro replacement stone columns in soft clay. Geotechnics of Soft Soils – Focus on Ground Improvement, Taylor & Francis Group, London, UK, 23–29.EganD.ScottW.2009Installation effects of vibro replacement stone columns in soft clayGeotechnics of Soft Soils – Focus on Ground ImprovementTaylor & Francis GroupLondon, UK232910.1201/9780203883334.ch3Search in Google Scholar
Kessler S., Heibrock G., and Triantafyllidis T., (2006). On prediction of vibro compaction performance using numerical models. Symposium International sur le Vibrofoncage et la Vibrocompaction, Paris, 233–242.KesslerS.HeibrockG.TriantafyllidisT.2006On prediction of vibro compaction performance using numerical modelsSymposium International sur le Vibrofoncage et la VibrocompactionParis233242Search in Google Scholar
Arnold M. and Herle I., (2009). Comparison of vibrocompaction methods by numerical simulations. International Journal For Numerical And Analytical Methods In Geomechanics, 1823–38.ArnoldM.HerleI.2009Comparison of vibrocompaction methods by numerical simulationsInternational Journal For Numerical And Analytical Methods In Geomechanics18233810.1002/nag.798Search in Google Scholar
Vishal J., Aman P.S, and Khushmeet K., (2013). Finite element method: An overview, Walilak J. Sci and Tech, 10 (1); 1–8.VishalJ.AmanP.SKhushmeetK.2013Finite element method: An overviewWalilak J. Sci and Tech10118Search in Google Scholar
Killen Michel B.E, (2012). Numerical modeling of small groups of stone columns, NUI Galway publisher.Killen MichelB.E.2012Numerical modeling of small groups of stone columnsNUI Galway publisherSearch in Google Scholar
Alkhorshid, N.R, (2017). Analysis of geosynthetic encased stone columns in very soft soil. University of Brasilia, Brasilia, DF, 128.AlkhorshidN.R2017Analysis of geosynthetic encased stone columns in very soft soilUniversity of BrasiliaBrasilia, DF128Search in Google Scholar
Elsawy, M.B.D., (2013). Behavior of soft ground improved by conventional and geogrid-encased stone columns, based on FEM study. Geosynthetics International, 20, No. 4, 276–285.ElsawyM.B.D.2013Behavior of soft ground improved by conventional and geogrid-encased stone columns, based on FEM studyGeosynthetics International20427628510.1680/gein.13.00017Search in Google Scholar
Henok L. Belayneh, (2020). The behavior of ordinary and geosynthetic encased stone columns in collapsible soil: A numerical study. Global Scientific Journal, Vol. 8, Issue 12, 978–1004.BelaynehHenok L.2020The behavior of ordinary and geosynthetic encased stone columns in collapsible soil: A numerical studyGlobal Scientific Journal8129781004Search in Google Scholar
Obadie N., (2017). Treatment of collapsible soil using encased stone column. The University of Birmingham.ObadieN.2017Treatment of collapsible soil using encased stone columnThe University of BirminghamSearch in Google Scholar
Imad E.D., Mohammed S.R., and Ahmad S., A Rashid., Abubaker S., (2020). Numerical modeling of encased stone columns supporting embankment on sabkha soil. Civil Engineering Journal. Vol. 6, No. 8.ImadE.D.MohammedS.R.AhmadS.RashidAAbubakerS.2020Numerical modeling of encased stone columns supporting embankment on sabkha soilCivil Engineering Journal68Search in Google Scholar
Q.S.M. Shafiqu, and F.A.A. Al-Assady, (2015). Analysis of embankment supported by stone columns encased with geosynthetic material. International Journal of Civil Engineering and Technology. Vol. 6, Issue 10.ShafiquQ.S.M.Al-AssadyF.A.A.2015Analysis of embankment supported by stone columns encased with geosynthetic materialInternational Journal of Civil Engineering and Technology610Search in Google Scholar
Al-Shammarie H. A., (2013). An experimental and theoretical study on ordinary and encased stone columns underneath embankment. Ph.D. Thesis, Civil Engineering Department, University of Baghdad, Iraq.Al-ShammarieH. A.2013An experimental and theoretical study on ordinary and encased stone columns underneath embankmentPh.D. Thesis,Civil Engineering Department, University of BaghdadIraqSearch in Google Scholar
Sim Yu Sheng, (2017), Performance of floating stone columns installed in soft soils. Swinburne University of Technology, Sarawak Campus, Malaysia.ShengSim Yu2017Performance of floating stone columns installed in soft soilsSwinburne University of Technology, Sarawak CampusMalaysiaSearch in Google Scholar
M. R. Kahyaoğlu, and M. Vaníček, (2019): A numerical study of reinforced embankments supported by encased floating columns. Acta Geotechnica Slovenica, P25–38.KahyaoğluM. R.VaníčekM.2019A numerical study of reinforced embankments supported by encased floating columnsActa Geotechnica Slovenica253810.18690/actageotechslov.16.2.25-38.2019Search in Google Scholar
Shaymaa K., Robert L., and Jie H., (2015). Stability analysis of embankments supported by geosynthetic encased stone columns. Geological Special Publication, 2318–2327.ShaymaaK.RobertL.JieH.2015Stability analysis of embankments supported by geosynthetic encased stone columnsGeological Special Publication23182327Search in Google Scholar
K.S.NG., and Y.M. Chew, (2019). Slope stability analysis of embankment over stone column improved ground. Journal of Engineering Science and Technology Vol. 14, No. 6, 3282–3596.K.S.NG.ChewY.M.2019Slope stability analysis of embankment over stone column improved groundJournal of Engineering Science and Technology14632823596Search in Google Scholar
Akhila Shaji M., Rajeswari K. R., and Geethu T., (2016). Stability analysis of soft clay stabilized using stone column. International Conference on Structural Engineering and Construction Management.Akhila ShajiM.RajeswariK. R.GeethuT.2016Stability analysis of soft clay stabilized using stone columnInternational Conference on Structural Engineering and Construction ManagementSearch in Google Scholar
Amit K.D., and Kousik D., (2019). Response of stone column-improved ground under c-ϕ soil embankment. Soils and Foundations, 59, 617–632.AmitK.D.KousikD.2019Response of stone column-improved ground under c-ϕ soil embankmentSoils and Foundations5961763210.1016/j.sandf.2019.01.003Search in Google Scholar
S.R. Mohapatra, and K. Rajapal, (2016). Analysis of failure mechanism of geosynthetic-encased stone column supported embankment. GeoAmericans 2016 The 3rd Pan-American Conference on Geosynthetics.MohapatraS.R.RajapalK.2016Analysis of failure mechanism of geosynthetic-encased stone column supported embankmentGeoAmericans 2016 The 3rd Pan-American Conference on GeosyntheticsSearch in Google Scholar
Shaymaa T.K, and Ziad B.F, (2018) Stability analysis of roadway embankments supported by stone columns with the presence of water table under short-term and long-term conditions MATEC Web Conferences 162.ShaymaaT.KZiadB.F2018Stability analysis of roadway embankments supported by stone columns with the presence of water table under short-term and long-term conditions MATEC Web Conferences16210.1051/matecconf/201816201013Search in Google Scholar
Sajjid M., and Huriye B., (2012). Finite element modeling of stone columns in alluvial soils under an embankment. 3rd International conference on New Developments in Soil Mechanics and Geotechnical Engineering.SajjidM.HuriyeB.2012Finite element modeling of stone columns in alluvial soils under an embankment3rd International conference on New Developments in Soil Mechanics and Geotechnical EngineeringSearch in Google Scholar
Maryam G., Anuar K., Norinah A., and Jamal A., (2018). Simulation of stone column ground improvement (Comparison between axisymmetric and plane strain). American Journal of Engineering and Applied Sciences.MaryamG.AnuarK.NorinahA.JamalA.2018Simulation of stone column ground improvement (Comparison between axisymmetric and plane strain)American Journal of Engineering and Applied SciencesSearch in Google Scholar
Chungsik Yoo, (2010). Performance of geosynthetic-encased stone columns in embankment construction: Numerical investigation. Journal of Geotechnical and Geoenvironmental Engineering, 1148–1160.YooChungsik2010Performance of geosynthetic-encased stone columns in embankment construction: Numerical investigationJournal of Geotechnical and Geoenvironmental Engineering1148116010.1061/(ASCE)GT.1943-5606.0000316Search in Google Scholar
Yogendra K.T., Chanderesh H., and Atul K., (2013). 3D FE analysis of an embankment construction on GRSC and proposal of a design method. Hindawi Publishing Corporation.YogendraK.T.ChandereshH.AtulK.20133D FE analysis of an embankment construction on GRSC and proposal of a design methodHindawi Publishing Corporation10.1155/2013/348973Search in Google Scholar
Marta Carreira, Marcio Almeida, and Alexandre Pinto, (2016). A numerical study on the critical height of embankments supported by geotextile encased granular columns. The 3rd International Conference on Transportation Geotechnics, Vol. 143, 1341–1349.CarreiraMartaAlmeidaMarcioPintoAlexandre2016A numerical study on the critical height of embankments supported by geotextile encased granular columnsThe 3rd International Conference on Transportation Geotechnics1431341134910.1016/j.proeng.2016.06.158Search in Google Scholar
Mohammedzein, and Al-shibani, (2011). Performance of an embankment supported on soft soil reinforced by stone columns. Institute of Civil Engineering Publishing, Vol. 164, Issue G 14.MohammedzeinAl-shibani2011Performance of an embankment supported on soft soil reinforced by stone columnsInstitute of Civil Engineering Publishing164G 1410.1680/grim.2011.164.4.213Search in Google Scholar