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Discrete element modelling of CPT using shaking table tests in sands

dc.contributor.advisorEcemiş, Nurhan
dc.contributor.authorBakunowicz, Paulina
dc.date.accessioned2023-11-13T09:32:14Z
dc.date.available2023-11-13T09:32:14Z
dc.date.issued2014-07
dc.departmentCivil Engineeringen_US
dc.descriptionText in English; Abstract: Turkish an Englishen
dc.descriptionThesis (Master)--Izmir Institute of Technology, Civil Engineering, Izmir, 2014en_US
dc.descriptionFull text release delayed at author's request until 2015.02.14en
dc.descriptionIncludes bibliographical references (leaves: 137-143)en_US
dc.description.abstractThis thesis contains an overview of the results obtained from detailed study exploring the ability of two-dimensional discrete element method (2D DEM) models to reproduce cone penetration tests in saturated sand deposits. The simulations of the cone penetration and triaxial tests are carried out under application of the commercially available numerical analysis software PFC2D (Itasca, 2008). This software is based on DEM with additional basic fluid analysis option. The soil sample used in the laboratory experiments was uniform, river clean quartz sand, which was similar to Ottawa sand. The material properties that required calibration were normal stiffness, tangential stiffness and interparticle friction. These parameters were determined by trial and error from 2D DEM biaxial test simulations. Data from five laminar box shaking table tests of saturated sand was analysed with particular attention to the measured cone penetration resistance in assemblages deposited at various relative densities. Each shake table test was subjected to three series of shaking tests (at the same intensities) by using one-degree of freedom shaking table system, which allowed obtaining wide scope of different porosities. A new scaling factor was implemented in order to compare the data obtained from tests on real soil (3D) with numerical simulations by DEM (2D). Observations of the behaviour of discrete material at laminar box enabled us to make a correlation between porosity from large scale experiment and PFC2D model. To examine the effects of boundary conditions, porosity, particle diameter size, fluid grid dimensions, contacts, coordination number and others on the tip resistance value, multiple simulation tests were performed. From the results presented we can deduce that 2D DEM CPT model can be powerful tool to enrich the conventional physical calibration tests. In this thesis it is also proven that CPT laminar box based correlations facilitate to overcome limitations of 2D simulation and can be widely and successfully applied for both scientific research and engineering practice purposes.en_US
dc.description.sponsorshipPIRG05-GA-2009-248218, TÜBİTAK (110M602) and İYTE-BAP (2010İYTE14)en_US
dc.identifier.urihttp://standard-demo.gcris.com/handle/123456789/4459
dc.institutionauthorBakunowicz, Paulina
dc.language.isoenen_US
dc.oaire.dateofacceptance2014-01-01
dc.oaire.impulse0
dc.oaire.influence2.9837197E-9
dc.oaire.influence_alt0
dc.oaire.is_greenfalse
dc.oaire.isindiamondjournalfalse
dc.oaire.keywordsGeotechnic analysis
dc.oaire.keywordsGeotachnical tests
dc.oaire.keywordsGeotechnical exploration
dc.oaire.keywordsİnşaat Mühendisliği
dc.oaire.keywordsCivil Engineering
dc.oaire.popularity1.0422565E-9
dc.oaire.popularity_alt0.0
dc.oaire.publiclyfundedfalse
dc.publisherIzmir Institute of Technologyen_US
dc.relation.publicationcategoryTezen_US
dc.rightsinfo:eu-repo/semantics/openAccessen_US
dc.subjectGeomechanicsen_US
dc.subjectGeotectonical propertiesen_US
dc.subjectGeotectonical explorationen_US
dc.subjectCone penetration testen_US
dc.subjectRelative densityen_US
dc.subjectGranular materialen_US
dc.titleDiscrete element modelling of CPT using shaking table tests in sandsen_US
dc.title.alternativeKumlarda sarma tablası deneyleri kullanılarak CPT testinin ayrık eleman yöntemi ile modellenmesien_US
dc.typeMaster Thesisen_US
dspace.entity.typePublication

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