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dc.creatorUribe, D.
dc.creatorOsorno, M.
dc.creatorSteeb, H.
dc.creatorSaenger, E.H.
dc.creatorRuíz, O.
dc.date.available2016-11-18T22:29:37Z
dc.date.issued2014
dc.identifier.citation@inproceedings{Uribe_etal_2014_WavePropag, author={D. Uribe and M. C. Osorno and H. Steeb and E. H. Saenger and O. Ruiz. }, title={Geometric and numerical modeling for porous media wave propagation.}, booktitle={Tools and Methods of Competitive Engineering TMCE}, year={2014}, editor={}, volume={}, pages={685-694}, note={ISBN 978-94-6186-176-4}, url={}, document_type={}, month={May 19-23}, publisher ={}, organization={}, address={Budapest, Hungary}, abstract ={Determining hydro-mechanical properties of porous materials present a challenge because they exhibit a more complex behaviour than their continuous counterparts. The geometrical factors such as pore shape, length scale and occupancy play a definite role in the materials characterization. On the other hand, computational mechanics calculations for porous materials face an intractable amount of data. To overcome these difficulties, this investigation propose a workflow (Image segmentation, surface triangulation and parametric surface fitting) to model porous materials (starting from a high-resolution industrial micro-CT scan) and transits across different geometrical data (voxel data, cross cut contours, triangular shells and parametric quadrangular patches) for the different stages in the computational mechanics simulations. We successfully apply the proposed workflow in aluminum foam. The various data formats allow the calculation of the tortuosity value of the material by using viscoelastic wave propagation simulations and poroelastic investigations. Future work includes applications for the geometrical model such as boundary elements and iso-geometrical analysis, for the calculation of material properties.} }spa
dc.identifier.isbn978-94-6186-176-4
dc.identifier.urihttp://hdl.handle.net/10784/9693
dc.descriptionDetermining hydro-mechanical properties of porous materials present a challenge because they exhibit a more complex behaviour than their continuous counterparts -- The geometrical factors such as pore shape, length scale and occupancy play a definite role in the materials characterization -- On the other hand, computational mechanics calculations for porous materials face an intractable amount of data -- To overcome these difficulties, this investigation propose a workflow (Image segmentation, surface triangulation and parametric surface fitting) to model porous materials (starting from a high-resolution industrial micro-CT scan) and transits across different geometrical data (voxel data, cross cut contours, triangular shells and parametric quadrangular patches) for the different stages in the computational mechanics simulations -- We successfully apply the proposed workflow in aluminum foam -- The various data formats allow the calculation of the tortuosity value of the material by using viscoelastic wave propagation simulations and poroelastic investigations -- Future work includes applications for the geometrical model such as boundary elements and iso-geometrical analysis, for the calculation of material propertiesspa
dc.description.sponsorshipHUNGARIAN ACADEMY OF SCIENCESspa
dc.formatapplication/pdfeng
dc.language.isoengspa
dc.relation.ispartofProceedings of Tools and Methods of Competitive Engineering TMCE, pp.685,694, 2014spa
dc.rightsinfo:eu-repo/semantics/closedAccesseng
dc.subjectModelado geométricospa
dc.subjectPoroelasticidadspa
dc.titleGeometric and numerical modeling for porous media wave propagationspa
dc.typeconferenceObjecteng
dc.typeinfo:eu-repo/semantics/conferenceObjecteng
dc.typeinfo:eu-repo/semantics/publishedVersioneng
dc.rights.accessRightsclosedAccessspa
dc.subject.lembMATERIALES POROSOSspa
dc.subject.lembPROPAGACIÓN DE ONDASspa
dc.subject.lembMÉTODOS DE SIMULACIÓNspa
dc.subject.lembTOMOGRAFÍAspa
dc.subject.lembVISCOELASTICIDADspa
dc.subject.lembANÁLISIS NUMÉRICOspa
dc.type.spaDocumento de conferenciaspa
dc.subject.keywordPorous materialsspa
dc.subject.keywordWave propagationspa
dc.subject.keywordSimulation methodsspa
dc.subject.keywordTomographyspa
dc.subject.keywordViscoelasticityspa
dc.subject.keywordNumerical analysisspa
dc.rights.accesoAcceso cerradospa
dc.date.accessioned2016-11-18T22:29:37Z
dc.type.hasVersionpublishedVersionspa
dc.tipo.versionObra publicadaspa


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