@article{BalCraHewHorMal-2017, author = {Balmforth, N. J. and Craster, R. V. and Hewitt, D. R. and Hormozi, S. and Maleki, A.}, title = {Viscoplastic boundary layers}, journal = {J. Fluid Mech.}, volume = {813}, pages = {929--954}, year = {2017}, keywords = {software!fem!rheolef, model!viscoplastic!bingham, model!limit load} }
@article{BalFriOva-2014, author = {Balmforth, N. J. and Frigaard, I. A. and Ovarlez, G.}, title = {Yielding to stress: recent developments in viscoplastic fluid mechanics}, journal = {Annual Review of Fluid Mechanics}, volume = {46}, pages = {121--146}, year = {2014}, keywords = {model!viscoplastic, document!review, software!fem!rheolef} }
@article{BouPigGouJop-2016, author = {Boujlel, J. and Pigeonneau, F. and Gouillart, E. and Jop, P.}, title = {Rate of chaotic mixing in localized flows}, journal = {Phys. Rev. Fluids}, volume = {1}, number = {3}, pages = {031301}, year = {2016}, keywords = {material!mixture, software!fem!rheolef, model!viscoplastic!herschel-bulkley, method!augmented lagrangian!uzawa} }
@phdthesis{Dav-2016-these, author = {G. Daviet}, title = {Mod\`eles et algorithmes pour la simulation du contact frottant dans les mat\'eriaux complexes. {A}pplication aux milieux fibreux et granulaires}, school = {Universit\'e de Grenoble}, year = 2016, keywords = {analysis!optimization!algorithm!interior point, analysis!optimization!complementarity!second order cone, analysis!optimization!non-smooth!fischer-burmeister, model!viscoplastic!mu-i, model!viscoplastic!drucker-prager, model!viscoplastic!bingham, software!fem!rheolef, material!granular, model!thermodynamic!dissipation-potential!bipotential, model!slip!friction!coulomb, model!signorini, model!particle} }
@article{DavBer-2016, author = {Daviet, G. and Bertails-Descoubes, F.}, title = {Nonsmooth simulation of dense granular flows with pressure-dependent yield stress}, journal = {J. Non-Newt. Fluid Mech.}, volume = {234}, pages = {15--35}, year = {2016}, url = {https://hal.inria.fr/hal-01236488/document}, keywords = {analysis!optimization!algorithm!interior point, analysis!optimization!complementarity!second order cone, analysis!optimization!non-smooth!fischer-burmeister, model!viscoplastic!mu-i, model!viscoplastic!bingham, method!newton, software!fem!rheolef, material!granular, test case!silo, test case!dam break} }
@article{HorZamRouDunFri-2015, author = {S. Hormozi and A. M. Zamenjani and A. Roustaei and G. Dunbrack and I. A. Frigaard}, title = {Viscoplastic forming and extrusion}, journal = {submitted}, year = {2015}, url = {https://www.researchgate.net/profile/Amir_Maleki9/publication/274391169_VISCO-PLASTIC_FORMING_AND_EXTRUSION/links/551eda790cf2a2d9e1402fd7.pdf}, keywords = {material!carbopol, model!viscoplastic!herschel-bulkley, software!fem!rheolef} }
@mastersthesis{Mal-2011-m2r, author = {A. Maleki}, title = {Macro-size drop encapsulation}, school = {M2R, Univ. British Columbia, Vancouver, Canada}, year = 2011, url = {https://circle.ubc.ca/bitstream/handle/2429/50071/ubc-2014-september-maleki-amir.pdf?sequence=1}, keywords = {model!viscoplastic!bingham, software!fem!rheolef, test case!drop!encapsulating} }
@mastersthesis{Mal-2014-m2r, author = {B. K. Mallat}, title = {Advection chaotique dans une cuve bidimensionnelle contenant un fluide non newtonien pr\'esentant un seuil}, school = {M2P de l'universit\'e Paris-sud}, year = 2014, keywords = {model!viscoplastic!herschel-bulkley, software!fem!rheolef, material!mixture} }
@article{MalHor-2017, author = {Maleki, A. and Hormozi, S.}, title = {Submerged jet shearing of visco-plastic sludge}, journal = {J. Non-Newt. Fluid Mech.}, volume = {to appear}, year = {2017}, keywords = {model!viscoplastic!bingham, test case!obstacle!plate, method!augmented lagrangian, software!fem!rheolef} }
@article{MalHor-2018, author = {Maleki, A. and Hormozi, S.}, title = {Submerged jet shearing of visco-plastic sludge}, journal = {J. Non-Newt. Fluid Mech.}, volume = {252}, pages = {19--27}, year = {2018}, keywords = {software!fem!rheolef, model!viscoplastic!bingham, material!mixture} }
@article{MalHorRouFri-2015, author = {Maleki, A. and Hormozi, S. and Roustaei, A. and Frigaard, I. A.}, title = {Macro-size drop encapsulation}, journal = {J. Fluid Mech.}, volume = {769}, pages = {482--521}, year = {2015}, keywords = {model!viscoplastic!bingham, software!fem!rheolef, test case!drop!encapsulating} }
@article{PutFri-2010, author = {A. Putz and I. A. Frigaard}, title = {Creeping flow around particle in a {Bingham} fluid}, journal = {J. Non-Newt. Fluid Mech.}, volume = {165}, number = {5--6}, pages = {263--280}, year = 2010, keywords = {model!viscoplastic!bingham, test case!obstacle!cylinder, software!fem!rheolef} }
@article{PutFriMar-2009, author = {A. Putz and I. A. Frigaard and D. M. Martinez}, title = {On the lubrication paradox and the use of regularisation methods for lubrication flows}, journal = {J. Non-Newt. Fluid Mech.}, volume = 163, pages = {62--77}, year = 2009, url = {http://www.iam.ubc.ca/Research/papers/Putz-Frigaard-Martinez_JNNFM2009.pdf}, keywords = {model!viscoplastic!bingham, model!viscoplastic!regularization!frigaard-nouar, model!viscoplastic!regularization!papanastasiou, method!augmented lagrangian, test case!poiseuille!ondulated, software!fem!rheolef} }
@phdthesis{Rou-2016-these, author = {A. Roustaei}, title = {Yield stress fluid flows in uneven geometries: applications to the oil and gas industry}, school = {University of British Columbia}, address = {Vancouver, Canada}, year = 2016, keywords = {model!viscoplastic!bingham, method!augmented lagrangian, method!adapt, test case!poiseuille!ondulated, software!fem!rheolef} }
@article{RouFri-2013, author = {A. Roustaei and I. A. Frigaard}, title = {The occurrence of fouling layers in the flow of a yield stress fluid along a wavy-walled channel}, journal = {J. Non-Newt. Fluid Mech.}, volume = {198}, pages = {109--124}, year = 2013, keywords = {model!viscoplastic!bingham, method!augmented lagrangian, method!adapt, test case!poiseuille!ondulated, software!fem!rheolef} }
@article{RouFri-2015, author = {Roustaei, A. and Frigaard, I. A.}, title = {Residual drilling mud during conditioning of uneven boreholes in primary cementing. {Part~2}: steady laminar inertial flows}, journal = {J. Non-Newt. Fluid Mech.}, volume = {226}, pages = {1--15}, year = {2015}, keywords = {model!viscoplastic!bingham, method!augmented lagrangian, method!adapt, test case!poiseuille!ondulated, software!fem!rheolef} }
@article{RouGosFri-2015, author = {Roustaei, A. and Gosselin, A. and Frigaard, I. A.}, title = {Residual drilling mud during conditioning of uneven boreholes in primary cementing. {Part}~1: rheology and geometry effects in non-inertial flows}, journal = {J. Non-Newt. Fluid Mech.}, volume = {220}, pages = {87--98}, year = {2015}, keywords = {software!fem!rheolef, model!viscoplastic!bingham, method!augmented lagrangian!uzawa} }
@inbook{Wac-2019, author = {Wachs, A.}, title = {Computational methods for viscoplastic fluid flows}, booktitle = {Lectures on visco-plastic fluid mechanics}, publisher = {Springer}, pages = {83--125}, year = 2019, keywords = {model!viscoplastic!bingham, software!fem!rheolef} }
@phdthesis{Zar-2018-these, author = {Zare Bezgabadi, M.}, title = {Fluid mechanics causes of gas migration: displacement of a yield stress fluid in a channel and onset of fluid invasion into a visco-plastic fluid}, school = {University of Britisch Columbia, Vancouver}, year = 2018, url = {https://open.library.ubc.ca/media/download/pdf/24/1.0371205/4}, keywords = {model!viscoplastic!bingham, method!augmented lagrangian, software!fem!rheolef} }
@article{ZarRouAlbFri-2016, author = {Zare, M. and Roustaei, A. and Alba, K. and Frigaard, I. A.}, title = {Invasion of fluids into a gelled fluid column: yield stress effects}, journal = {J. Non-Newt. Fluid Mech.}, volume = {238}, pages = {212--223}, year = {2016}, keywords = {software!fem!rheolef, model!viscoplastic!bingham} }
@article{EtiDup-2011, author = {J. \'Etienne and A. Duperray}, title = {Initial dynamics of cell spreading are governed by dissipation in the actin cortex}, journal = {Biophys. J.}, volume = 101, number = 3, pages = {611--622}, year = 2011, url = {http://www-liphy.ujf-grenoble.fr/equipe/dyfcom/etienne/Papers/JE-BiophysJ11.pdf}, keywords = {material!active, biology!cell, software!fem!rheolef} }
@article{LaaSze-2017, author = {Laadhari, A. and Sz{\'e}kely, G.}, title = {Warning about the risk of blood flow stagnation after transcatheter aortic valve implantation}, journal = {Int. J. Math. Comput. Phys. Elec. Comput. Eng.}, volume = {11}, number = {1}, pages = {33--37}, year = 2017, keywords = {software!fem!rheolef, biology!blood, biology!cardiac} }
@article{RavCheChe-2015, author = {A. Ravasio and I. Cheddadi and T. Chen and T. Pereira and H. T. Ong and C. Bertocchi and A. Brugues and A. Jacinto and A. J. Kabla and Y. Toyama and X. Trepat and N. Gov and de Almeida, L. N. and B. Ladoux}, title = {Gap geometry dictates epithelial closure efficiency}, journal = {Nature Comm.}, year = 2015, url = {https://www.nature.com/articles/ncomms8683.pdf}, keywords = {software!fem!rheolef, model!stokes, material!tissue, method!fem!surface!curvature} }
@article{RouDupLauMicPesVerEti-2016, author = {Roux, C. and Duperray, A. and Laurent, V. M. and Michel, R. and Peschetola, V. and Verdier, C. and {\'E}tienne, J.}, title = {Prediction of traction forces of motile cells}, journal = {Interface Focus}, volume = {6}, number = {5}, pages = {20160042}, year = {2016}, keywords = {software!fem!rheolef, biology!cell} }
@article{PigPerLap-2021, author = {Pigeonneau, F. and Pereira, L. and Laplace, A.}, title = {Mass transfer around a rising bubble in a glass-forming liquid involving oxidation-reduction reaction: numerical computation of the {Sherwood} number}, journal = {Chem. Eng. Sci.}, pages = {116382}, year = {2021}, keywords = {software!fem!rheolef, test case!drop!rising} }
@article{DanDemBerWeiPon-2019, author = {Dansereau, V. and D{\'e}mery, V. and Berthier, E. and Weiss, J. and Ponson, L.}, title = {Collective damage growth controls fault orientation in quasibrittle compressive failure}, journal = {Phys. Rev. Lett.}, volume = {122}, number = {8}, pages = {085501}, year = {2019}, keywords = {model!damage!stress-equivalent-criterion!mohr-coulomb, software!fem!rheolef} }
@article{DemDanBerPonWei-2018, author = {V. D\'emery and V. Dansereau and E. Berthier and L. Ponson and J. Weiss}, title = {Elastic interactions in damage models of brittle failure}, journal = {Arxiv preprint}, year = 2018, url = {https://arxiv.org/abs/1712.08537}, keywords = {software!fem!rheolef, material!ice flow!arctic, model!damage!stress-equivalent-criterion!mohr-coulomb, model!damage!healing} }
@article{WeiDan-2017, author = {Weiss, J. and Dansereau, V.}, title = {Linking scales in sea ice mechanics}, journal = {Phil. Trans. R. Soc. A}, volume = {375}, number = {2086}, pages = {20150352}, year = {2017}, url = {http://rsta.royalsocietypublishing.org/content/roypta/375/2086/20150352.full.pdf}, keywords = {material!ice flow!arctic, model!damage!stress-equivalent-criterion!mohr-coulomb, software!fem!rheolef, model!damage!healing} }
@article{Laa-2016, author = {Laadhari, A.}, title = {An implicit methodology for the numerical modeling of locally inextensible membranes}, journal = {Int. J. Math. Comput. Phys. Elec. Comput. Eng.}, volume = {10}, number = {12}, pages = {621--628}, year = {2016}, url = {http://www.waset.org/publications/10006185}, keywords = {method!level set, analysis!optimization!shape, model!helfrich, software!fem!rheolef, method!newton} }
@article{Laa-2017-exact, author = {Laadhari, A.}, title = {Exact {Newton} method with third-order convergence to model the dynamics of bubbles in incompressible flow}, journal = {Appl. Math. Lett.}, volume = {69}, pages = {138--145}, year = {2017}, keywords = {method!level set, test case!drop!rising, method!newton, software!fem!rheolef} }
@article{Laa-2018-b, author = {Laadhari, A.}, title = {Implicit finite element methodology for the numerical modeling of incompressible two-fluid flows with moving hyperelastic interface}, journal = {Appl. Math. Comput.}, volume = {333}, pages = {376--400}, year = {2018}, keywords = {method!level set, software!fem!rheolef, method!newton!third-order} }
@article{Laa-2018, author = {Laadhari, A.}, title = {An operator splitting strategy for fluid-structure interaction problems with thin elastic structures in an incompressible {Newtonian} flow}, journal = {Appl. Math. Lett.}, volume = {in press}, year = {2018}, keywords = {method!level set, software!fem!rheolef, method!newton} }
@article{LaaQua-2016, author = {Laadhari, A. and Quarteroni, A.}, title = {Numerical modeling of heart valves using resistive {Eulerian} surfaces}, journal = {Int. J. Numer. Meth. Biomed. Eng.}, volume = 32, number = 5, year = {2016}, url = {https://www.researchgate.net/profile/Aymen_Laadhari/publication/280909749_Numerical_modeling_of_heart_valves_using_resistive_Eulerian_surfaces/links/55e047d208aede0b572ceea5.pdf}, keywords = {software!fem!rheolef, biology!blood, model!fluide-structure, biology!cardiac} }
@article{LaaRuiQua-2013, author = {Laadhari, A. and Ruiz-Baier, R. and Quarteroni, A.}, title = {Fully Eulerian finite element approximation of a fluid-structure interaction problem in cardiac cells}, journal = {Int. J. Numer. Meth. Eng.}, volume = {96}, number = {11}, pages = {712--738}, year = {2013}, url = {http://people.maths.ox.ac.uk/ruizbaier/myPapers/lrq_ijnme13.pdf}, keywords = {software!fem!rheolef, biology!cell, model!fluide-structure, biology!cardiac} }
@article{LaaSze-2016, author = {Laadhari, A. and Sz{\'e}kely, G.}, title = {Implicit {Eulerian} fluid-structure interaction method for the modeling of highly deformable elastic membranes}, journal = {Int. J. Math. Comput. Phys. Elec. Comput. Eng.}, volume = {10}, number = {12}, pages = {606--615}, year = {2016}, url = {http://waset.org/publications/10006134/implicit-eulerian-fluid-structure-interaction-method-for-the-modeling-of-highly-deformable-elastic-membranes}, keywords = {method!level set, analysis!optimization!shape, model!helfrich, software!fem!rheolef, method!newton} }
@article{LaaSze-2017-b, author = {Laadhari, A. and Sz{\'e}kely, G.}, title = {Fully implicit finite element method for the modeling of free surface flows with surface tension effect}, journal = {Int. J. Numer. Meth. Eng.}, volume = {111}, number = 11, pages = {1047--1074}, year = {2017}, keywords = {method!level set, test case!drop!rising, method!newton, software!fem!rheolef} }
@article{LaaSze-2017-c, author = {Laadhari, A. and Sz{\'e}kely, G.}, title = {Eulerian finite element method for the numerical modeling of fluid dynamics of natural and pathological aortic valves}, journal = {J. of Comput. Appl. Math.}, volume = {319}, pages = {236--261}, year = {2017}, keywords = {method!level set, analysis!optimization!shape, model!helfrich, software!fem!rheolef, method!newton} }
@phdthesis{Mon-2007-hdr, author = {Monnier, J.}, title = {Mod{\`e}les num{\'e}riques directs et inverses d'{\'e}coulements de fluides}, school = {Th\`ese d'habilitation, Institut National Polytechnique de Grenoble}, year = {2007}, url = {https://hal.archives-ouvertes.fr/docs/00/25/94/50/PDF/HDR_Jerome_Monnier07.pdf}, keywords = {software!fem!rheolef, model!capillary!contact angle, equation!inverse problem, model!asymptotic!shallow!flow!inertia} }
@article{MonBenCot-2007, author = {J. Monnier and A. Benselama and I. Cotoi}, title = {Flow patterns in the vicinity of triple line dynamics arising from a local surface tension model}, journal = {Int. J. Mult. Comput. Eng.}, volume = 5, number = 5, pages = {417--434}, year = 2007, keywords = {software!fem!rheolef, model!capillary!contact angle} }
@article{MonWit-2004, author = {Monnier, J. and Witomski, P.}, title = {Analysis of a local hydrodynamic model with {Marangoni} effect}, journal = {J. Sci. Comput.}, volume = {21}, number = {3}, pages = {369--403}, year = {2004}, keywords = {software!fem!rheolef, model!capillary!contact angle, test case!marangoni, model!capillary!surfactant} }
@article{MonWitChoSch-2009, author = {Monnier, J. and Witomski, P. and Chow-Wing-Bom, P. and Scheid, C.}, title = {Numerical modeling of electrowetting by a shape inverse approach}, journal = {SIAM J. Appl. Math.}, volume = {69}, number = {5}, pages = {1477--1500}, year = {2009}, keywords = {software!fem!rheolef, model!capillary!contact angle, equation!inverse problem} }
@article{AlaOuzTbe-2007, author = {el Alaoui Talibi, M. and Ouazar, D. and Tber, M. H.}, title = {Identification of the hydraulic conductivities in a saltwater intrusion problem}, journal = {J. Inv. Ill-posed Problems}, volume = {15}, number = {9}, pages = {935--954}, year = {2007}, keywords = {software!fem!rheolef} }
@article{BenBal-2009, author = {Bendick, Rebecca and Baldwin, Julia}, title = {Dynamic models for metamorphic core complex formation and scaling: The role of unchannelized collapse of thickened continental crust}, journal = {Tectonophysics}, volume = {477}, number = {1}, pages = {93--101}, year = {2009}, keywords = {software!fem!rheolef, material!continental crust} }
@article{BenMckEti-2008, author = {Bendick, R. and McKenzie, D. and Etienne, J.}, title = {Topography associated with crustal flow in continental collisions, with application to Tibet}, journal = {Geophys. J. Int.}, volume = {175}, number = {1}, pages = {375--385}, year = {2008}, url = {https://gji.oxfordjournals.org/content/175/1/375.full.pdf#page=1&view=FitH}, keywords = {software!fem!rheolef, material!continental crust} }
@phdthesis{Giu-2003-these, author = {Giurgea, S.}, title = {Traitement unifi{\'e} des propri{\'e}t{\'e}s physiques dans un environnement d'analyse int{\'e}gr{\'e}}, school = {Institut National Polytechnique de Grenoble}, year = {2003}, url = {https://hal.archives-ouvertes.fr/file/index/docid/407793/filename/These_Giurgea.pdf}, keywords = {software!fem!rheolef, software!cad!salome} }
@inproceedings{KolHirBinKozSzeLaa-2015, author = {Koltukluoglu, T. S. and Hirsch, S. and Binter, C. and Kozerke, S. and Szekely, G. and Laadhari, A.}, title = {A robust comparison approach of velocity data between {MRI} and {CFD} based on divergence-free space projection}, booktitle = {IEEE Symposium on Biomedical Imaging (ISBI), 2015 IEEE 12th International}, pages = {1393--1397}, year = {2015}, url = {http://www.vision.ee.ethz.ch/en/publications/papers/proceedings/eth_biwi_01202.pdf}, keywords = {software!fem!rheolef, method!fem!divergence-free, software!fem!openfoam} }
@phdthesis{Sal-2006-these, author = {Saldamli, L.}, title = {{PDEModelica}: a high-level language for modeling with partial differential equations}, school = {Linkopings universitet, Sweden}, year = {2006}, url = {http://www.diva-portal.org/smash/get/diva2:22306/FULLTEXT01.pdf}, keywords = {software!fem!rheolef, software!cad!modelica} }
@inproceedings{SalBacFriWie-2005, author = {Saldamli, L. and Bachmann, B. and Wiesmann, H. and Fritzson, P.}, title = {A framework for describing and solving {PDE} models in {Modelica}}, booktitle = {4th international {Modelica} conference}, year = {2005}, url = {https://www.modelica.org/events/Conference2005/index_html/online_proceedings/Session1/Session1c3.pdf}, keywords = {software!fem!rheolef, software!cad!modelica} }
@inproceedings{SalFriBac-2002, author = {Saldamli, L. and Fritzson, P. and Bachmann, B.}, title = {Extending {Modelica} for partial differential equations}, booktitle = {2th international {Modelica} conference}, pages = {307--314}, year = {2002}, url = {https://www.modelica.org/events/Conference2002/index_html/papers/p38_Saldamli.pdf}, keywords = {software!fem!rheolef, software!cad!modelica} }
@article{TbeAla-2007, author = {Tber, M. H. and el Alaoui Talibi, M.}, title = {A finite element method for hydraulic conductivity identification in a seawater intrusion problem}, journal = {Comput. Geosci.}, volume = {33}, number = {7}, pages = {860--874}, year = {2007}, keywords = {software!fem!rheolef} }
@article{TbeAlaOua-2008, author = {Tber, M. H. and el Alaoui Talibi, M. and Ouazar, D.}, title = {Parameters identification in a seawater intrusion model using adjoint sensitive method}, journal = {Math. Comput. Simul.}, volume = {77}, number = {2}, pages = {301--312}, year = {2008}, keywords = {software!fem!rheolef} }
@article{TbeTalOua-2008, author = {Tber, M. H. and Talibi, M. E. A. and Ouazar, D.}, title = {Parameters identification in a seawater intrusion model using adjoint sensitive method}, journal = {Math. Comput. Simul.}, volume = {77}, number = {2-3}, pages = {301--312}, year = {2008}, keywords = {software!fem!rheolef} }
@inproceedings{Pig-2017-cfm, author = {Pigeonneau, F.}, title = {Thermoconvective instabilities of a non-uniform {Joule}-heated high {Prandtl} number liquid}, booktitle = {Congr\`es francais de m\'ecanique, Lilles}, year = {2017}, url = {http://documents.irevues.inist.fr/bitstream/handle/2042/63242/133048.pdf?sequence=1}, keywords = {software!fem!rheolef, model!thermic!bousinesq, equation!instability, model!electric, model!navier-stokes} }
@inproceedings{Pig-2018-slides, author = {F. Pigeonneau}, title = {D\'etermination par une m\'ethode aux \'el\'ements finis des coefficients de transfert de masse pour des bulles en ascension dans un \'ecoulement en r\'egime de Stokes tenant de r\'eactions chimiques proches de l'\'equilibre}, booktitle = {Congr\`es Mat\'eriaux}, publisher = {CNRS-CCSD}, year = 2018, url = {https://hal-mines-paristech.archives-ouvertes.fr/hal-01978961/file/20181120_PIGEONNEAU_C185.pdf}, keywords = {software!fem!rheolef, material!glass, material!bubble, model!stokes, method!discontinuous} }
@article{PigCorLop-2018, author = {Pigeonneau, F. and Cornet, A. and Lop{\'e}p{\'e}, F.}, title = {Thermoconvective instabilities of a non-uniform {Joule}-heated liquid enclosed in a rectangular cavity}, journal = {J. Fluid Mech.}, volume = {843}, pages = {601--636}, year = {2018}, keywords = {model!thermic, model!navier-stokes, test case!cavity, test case!rayleigh-benard, software!fem!rheolef} }
@mastersthesis{Abo-2010-m2r, author = {L. Abouorm}, title = {M\'ethodes math\'ematiques pour les \'ecoulements sur des surfaces}, school = {M2R Universit\'e J. Fourier, Grenoble}, year = 2010, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/Lara-Abouorm-m2r-2010.pdf}, keywords = {method!level set, method!fem!surface, equation!surface!laplace-beltrami operator, software!fem!rheolef} }
@article{BenEssSar-2004, author = {M. Bensaada and D. Esselaoui and P. Saramito}, title = {Error estimate for the characteristic method involving {Oldroyd} derivative in a tensorial transport problem}, journal = {Electronic Journal of Differential Equations}, volume = {Conference 11}, pages = {53--59}, year = 2004, url = {http://ejde.math.txstate.edu/conf-proc/11/b3/abstr.html}, keywords = {model!viscoelastic!oldroyd, method!characteristic, software!fem!rheolef} }
@mastersthesis{Ber-2011-m2r, author = {N. Bernabeu}, title = {Simulation num\'erique des coul\'ees de lave de volcans}, school = {M2P Universit\'e J. Fourier, Grenoble}, year = 2011, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/noe-bernabeu-m2r.pdf}, keywords = {material!lava, model!viscoplastic!herschel-bulkley,model!asymptotic!shallow!flow!lubrication, test case!dam break, software!fem!rheolef} }
@phdthesis{Ber-2015-these, author = {N. Bernabeu}, title = {Mod\'elisation multi-physique des \'ecoulements viscoplastiques -- application aux coul\'ees de lave volcaniques}, school = {Universit\'e de Grenoble}, year = 2015, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/Noe-Bernabeu-these.pdf}, keywords = {test case!dam break, model!viscoplastic!herschel-bulkley, model!asymptotic!shallow!flow!topography, software!fem!rheolef, test case!cavity, method!augmented lagrangian!uzawa, model!migration, model!thermic, test case!poiseuille, material!lava} }
@article{BerFinSmuSarDel-2018, author = {N. Bernabeu and A. Finizola and C. Smutek and P. Saramito and E. Delcher}, title = {Spatio-temporal evolution of temperature and fluid flow through a new "thermo-lithological" boundary; the case of a pit crater of Karthala volcano (Comoros archipelago) refilled on January 13th 2007 by a lava flow}, journal = {J. Volc. Geotherm. Res.}, volume = {367}, pages = {7--19}, year = 2018, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/BerFinSmuSarDel-2018.pdf}, keywords = {software!fem!rheolef, material!lava} }
@article{BerSarHar-2018, author = {N. Bernabeu and P. Saramito and A. Harris}, title = {Laminar shallow viscoplastic fluid flowing through an array of vertical obstacles}, journal = {J. Non-Newt. Fluid Mech.}, volume = 257, pages = {59--70}, year = 2018, url = {https://www-ljk.imag.fr/membres/Pierre.Saramito/BerSarHar-2018.pdf}, keywords = {model!viscoplastic!bingham, model!darcy!brinkman, software!fem!rheolef, model!asymptotic!shallow!flow!topography} }
@article{BerSarSmu-2014, author = {N. Bernabeu and P. Saramito and C. Smutek}, title = {Numerical modeling of shallow non-{Newtonian} flows: {Part II}. {Viscoplastic} fluids and general tridimensional topographies}, journal = {Int. J. Numer. Anal. Model.}, volume = 11, number = 1, pages = {213--228}, year = 2014, url = {http://www.math.ualberta.ca/ijnam/Volume-11-2014/No-1-14/2014-01-12.pdf}, keywords = {test case!dam break, model!viscoplastic!herschel-bulkley, model!asymptotic!shallow!flow!topography, software!fem!rheolef} }
@inbook{BerSarSmu-2016, author = {N. Bernabeu and P. Saramito and C. Smutek}, title = {Modelling lava flow advance using a shallow-depth approximation for three-dimensional cooling of viscoplastic flows}, booktitle = {Detecting, modelling and responding to effusive eruptions}, publisher = {Geol. Soc.}, address = {London}, chapter = {27}, year = 2016, url = {http://sp.lyellcollection.org/content/early/2016/03/15/SP426.27.full.pdf}, keywords = {test case!dam break, model!viscoplastic!herschel-bulkley, model!asymptotic!shallow!flow!topography, software!fem!rheolef, model!thermic, material!lava} }
@mastersthesis{Bra-2003-m2r, author = {M. Brassel}, title = {Le probl\`eme du talus en analyse de charge limite -- Application \`a la rupture du manteau neigeux lors des d\'eparts d'avalanches}, school = {DEA math\'ematiques appliqu\'es, Grenoble}, year = 2003, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/Morgan-Brassel-dea.ps.gz}, keywords = {model!viscoplastic!bingham, test case!embankment, software!fem!rheolef} }
@phdthesis{Bra-2008-these, author = {M. Brassel}, title = {Mod\'elisation des instabilit\'es de forme en croissance cristaline}, school = {U. J. Fourier, Grenoble}, year = 2008, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/Morgan-Brassel-these.pdf}, keywords = {method!phase field,model!allen-cahn,model!cahn-hilliard,material!crystal!film, software!fem!rheolef} }
@mastersthesis{Cai-1997-m2r, author = {A. Caillaux}, title = {Calcul d'un \'ecoulement de {Poiseuille} pour un fluide de {Bingham} par lagrangien augment\'e et une technique de maillage auto-adaptatif anisotrope}, school = {DEA de l'universit\'e J. Fourier et stage de l'ENSHMG-INPG, Grenoble}, year = 1997, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/arnaud-caillaux-stage97.ps.gz}, keywords = {model!viscoplastic!bingham, method!augmented lagrangian, method!adapt, test case!pipe section, software!fem!rheolef} }
@mastersthesis{Cha-2019-m2r, author = {S. Chakraborty}, title = {Continuous mathematical models of cell migration}, school = {M2R ENSIMAG, Grenoble}, year = 2019, keywords = {material!tissue, model!viscoelastic!oldroyd, model!asymptotic!shallow!flow, test case!dam break, software!fem!rheolef} }
@phdthesis{Che-2010-these, author = {I. Cheddadi}, title = {Contribution \`a la mod\'elisation num\'erique des \'ecoulements de mousse}, school = {Universit\'e de Grenoble}, year = 2010, note = {\url{http://tel.archives-ouvertes.fr/tel-00497436}}, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/Ibrahim-Cheddadi-these.pdf}, keywords = {model!elastoviscoplastic!saramito, test case!obstacle!cylinder, test case!couette, material!soft glassy!foam, method!splitting scheme!theta scheme, software!fem!rheolef} }
@article{CheSar-2013, author = {I. Cheddadi and P. Saramito}, title = {A new operator splitting algorithm for elastoviscoplastic flow problems}, journal = {J. Non-Newt. Fluid Mech.}, volume = 202, pages = {13-21}, year = 2013, note2 = {\url{http://hal.archives-ouvertes.fr/hal-00809802}}, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/evp-algo.pdf}, keywords = {model!elastoviscoplastic!saramito, test case!obstacle!cylinder, test case!couette, material!soft glassy!foam, method!splitting scheme!theta scheme, software!fem!rheolef} }
@article{CheSarDolRauGra-2011, author = {I. Cheddadi and P. Saramito and B. Dollet and C. Raufaste and F. Graner}, title = {Understanding and predicting viscous, elastic, plastic flows}, journal = {Eur. Phys. J. E}, volume = 34, number = 1, pages = {11001}, year = 2011, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/obstacle\_evp.pdf}, keywords = {model!elastoviscoplastic!saramito, test case!obstacle!cylinder, material!soft glassy!foam , software!fem!rheolef} }
@article{CheSarGra-2012, author = {I. Cheddadi and P. Saramito and F. Graner}, title = {Steady {Couette} flows of elastoviscoplastic fluids are non-unique}, journal = {J. Rheol.}, volume = 56, number = 1, pages = {213--239}, year = 2012, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/shearband.pdf}, keywords = {model!elastoviscoplastic!saramito, test case!obstacle!cylinder, test case!couette, material!soft glassy!foam, method!splitting scheme!theta scheme, document!slides , software!fem!rheolef} }
@article{CheSarGra-2015, author = {I. Cheddadi and P. Saramito and F. Graner}, title = {La solidit\'e de la mousse liquide}, journal = {Pour la science}, volume = {d\'cembre}, year = 2015, keywords = {model!elastoviscoplastic!saramito, test case!obstacle!cylinder, material!soft glassy!foam , software!fem!rheolef} }
@article{CheSarRauMarGra-2008, author = {I. Cheddadi and P. Saramito and C. Raufaste and P. Marmottant and F. Graner}, title = {Numerical modelling of foam {Couette} flows}, journal = {Eur. Phys. J. E}, volume = 27, number = 2, pages = {123-133}, year = 2008, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/epje.pdf}, keywords = {model!elastoviscoplastic!saramito, test case!couette, material!soft glassy!foam , software!fem!rheolef} }
@article{CheSarRauMarGra-2009-erratum, author = {I. Cheddadi and P. Saramito and C. Raufaste and P. Marmottant and F. Graner}, title = {Erratum to numerical modelling of foam {Couette} flows}, journal = {Eur. Phys. J. E}, volume = 28, pages = {479-480}, year = 2009, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/epje-erratum.pdf}, keywords = {model!elastoviscoplastic!saramito, test case!couette, material!soft glassy!foam , software!fem!rheolef} }
@phdthesis{Dan-2016-these, author = {V. Dansereau}, title = {A Maxwell-elasto-brittle model for the drift and deformation of sea ice}, school = {Universit\'e de Grenoble}, year = 2016, url = {https://tel.archives-ouvertes.fr/tel-01316987/document}, keywords = {software!fem!rheolef, material!ice flow!arctic, model!damage!stress-equivalent-criterion!mohr-coulomb, model!damage!healing, test case!creeping!2d} }
@inproceedings{DanWeiSar-2021-iacmag, author = {Dansereau, V. and Weiss, J. and Saramito, P.}, title = {A continuum viscous-elastic-brittle, finite element {DG} model for the fracture and drift of sea ice}, booktitle = {Int. Assoc. Comput. Meth. Adv. Geomech.}, pages = {125--139}, year = {2021}, keywords = {material!ice flow!arctic, model!damage!stress-equivalent-criterion!mohr-coulomb, software!fem!rheolef, model!damage!healing, method!discontinuous} }
@article{DanWeiSarLat-2016, author = {V. Dansereau and J. Weiss and P. Saramito and P. Lattes}, title = {A {Maxwell-elasto-brittle} rheology for sea ice modelling}, journal = {Cryosphere}, volume = {10}, pages = {1339--1359}, year = 2016, xnote = {\url{http://www.the-cryosphere.net/10/1339/2016}}, url = {http://www.the-cryosphere.net/10/1339/2016/tc-10-1339-2016.pdf}, keywords = {material!ice flow!arctic, model!damage!stress-equivalent-criterion!mohr-coulomb, software!fem!rheolef, model!damage!healing, test case!creeping!2d} }
@article{DanWeiSarLatCoc-2015, author = {Dansereau, V. and Weiss, J. and Saramito, P. and Lattes, P. and Coche, E.}, title = {A {Maxwell}-elasto-brittle rheology for sea ice modeling}, journal = {Mercator Ocean Newsletter}, volume = 51, pages = {35-40}, year = {2015}, url = {http://epic.awi.de/37826/1/Mercator_51_V3.pdf#page=35}, keywords = {material!ice flow!arctic, model!damage!stress-equivalent-criterion!mohr-coulomb, software!fem!rheolef, model!damage!healing} }
@article{DanWeiSarLatCoc-2017, author = {V. Dansereau and J. Weiss and P. Saramito and P. Lattes and E. Coche}, title = {Ice bridges and ridges in the {Maxwell-EB} sea ice rheology}, journal = {The Cryosphere}, volume = 11, pages = {2033--2058}, year = 2017, keywords = {material!ice flow!arctic, model!damage!stress-equivalent-criterion!mohr-coulomb, software!fem!rheolef, model!damage!healing} }
@mastersthesis{Deh-2017-m2r, author = {A. Deharveng}, title = {Mod\'elisation des coul\'ees de d\'ebris}, school = {M2R Universit\'e Nice-Sophia Antipolis}, year = 2017, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/Deh-2017-m2r.pdf}, keywords = {material!mud flow, model!asymptotic!shallow!flow!multilayer, model!migration, material!soft glassy!suspension!non-colloid, software!fem!rheolef, model!sbm} }
@mastersthesis{Des-2005-m2r, author = {T. Desrues}, title = {Simulation des \'ecoulements viscoplastiques avec glissement en parois -- Application aux \'ecoulements de mousses}, school = {Stage ENSPG, INPG, Grenoble}, year = 2005, keywords = {model!viscoplastic!bingham, test case!obstacle!cylinder, material!soft glassy!foam, software!fem!rheolef} }
@mastersthesis{Dic-2011-m2r, author = {M. Dicko}, title = {M\'ethodes math\'ematiques pour les \'ecoulements sur des surfaces}, school = {M2P Universit\'e J. Fourier, Grenoble}, year = 2011, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/mahamar-dicko-m2r.pdf}, keywords = {method!level set, method!fem!surface, equation!surface!laplace-beltrami operator, software!fem!rheolef} }
@phdthesis{Dic-2016-these, author = {M. Dicko}, title = {M\'ethodes num\'eriques pour la r\'esolution d'{EDP} sur des suraces. Application dans l'embryog\'en\`ese}, school = {Universit\'e de Grenoble}, year = 2016, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/Dic-2016-these.pdf}, keywords = {software!fem!rheolef, equation!surface} }
@article{DicSarEti-2017, author = {Dicko, M. and Saramito, P. and Blanchard, G. B. and Lye, C. M. and Sanson, B. and {\'E}tienne, J.}, title = {Geometry can provide long-range mechanical guidance for embryogenesis}, journal = {PLOS Comput. Bio.}, volume = {13}, number = {3}, pages = {e1005443}, year = {2017}, keywords = {software!fem!rheolef, equation!surface, material!tissue} }
@mastersthesis{Elj-2020-m2r, author = {T. el Jammal}, title = {Numerical resolution of viscoelastic fluids. Simulation of a flow in abrupt contraction}, school = {M2 de l'universit\'e de Grenoble}, year = 2020, keywords = {model!viscoelastic!oldroyd, software!fem!rheolef, test case!contraction, model!tensor-derivative!logarithmic-rate, model!viscoelastic!reformulation!logarithmic} }
@mastersthesis{Eti-2001-m2r, author = {J. \'Etienne}, title = {Simulation num\'erique d'\'ecoulements \`a surface libre par une m\'ethode {Euler-Lagrange} arbitraire ({ALE})}, school = {DEA Universit\'e J. Fourier, Grenoble}, year = 2001, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/Jocelyn-Etienne-dea.ps.gz}, keywords = {model!capillary, method!ale, test case!jet breakup, software!fem!rheolef} }
@phdthesis{Eti-2004-these, author = {J. \'Etienne}, title = {Simulation num\'erique directe de nuages a\'erosols denses sur des pentes - application aux avalanches de neige poudreuse}, school = {Institut National Polytechnique de Grenoble}, year = 2004, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/Jocelyn-Etienne-these.pdf}, keywords = {model!navier-stokes, method!characteristic, material!snow avalanche, software!fem!rheolef} }
@article{EtiHopSar-2005, author = {J. \'Etienne and E. J. Hopfinger and P. Saramito}, title = {Numerical simulation of high density ratio lock-exchange flows}, journal = {Phys. Fluids}, volume = 17, number = 3, pages = {036601}, year = 2005, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/phys-fluids-2004.pdf}, keywords = {model!navier-stokes, method!characteristic, software!fem!rheolef} }
@article{EtiLohSar-2010, author = {J. \'Etienne and J. Loh\'eac and P. Saramito}, title = {A {Lagrange}-multiplier approach for the numerical simulation of an inextensible membrane or thread immersed in a fluid}, journal = {submitted}, year = 2010, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/drapeau.pdf}, keywords = {model!interface, test case!flag, method!fem!boundary-lagrange-multiplier, software!fem!rheolef} }
@article{EtiSar-2005, author = {J. \'Etienne and P. Saramito}, title = {Estimations d'erreur a priori de la m\'ethode de {Lagrange-Galerkin} pour les \'equations de type {Kazhikhov-Smagulov}}, journal = {C. R. Acad. Sci. Paris, ser. I}, volume = 341, pages = {769-774}, year = 2005, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/crasp-05.pdf}, keywords = {model!navier-stokes, method!characteristic, software!fem!rheolef} }
@article{EtiSarHop-2005, author = {J. \'Etienne and P. Saramito and E. J. Hopfinger}, title = {Numerical simulations of dense clouds on steep slopes: application to powder-snow avalanches}, journal = {Annals of Glaciology}, volume = 38, pages = {279--383}, year = 2005, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/avalanches-davos-2003.pdf}, keywords = {model!navier-stokes, method!characteristic, material!snow avalanche, software!fem!rheolef} }
@mastersthesis{Kec-2015-m2r, author = {J.-B. Keck}, title = {De la simulation \`a la visualisation de coul\'ees de lave}, school = {M2R de l'universit\'e de Grenoble}, year = 2015, keywords = {model!viscoplastic!herschel-bulkley, model!asymptotic!shallow!flow!topography, software!fem!rheolef, model!thermic, material!lava} }
@mastersthesis{Laa-2007-m2r, author = {A. Laadhari}, title = {Mod\'elisation num\'erique des \'ecoulements viscoplastiques de faible \'epaisseur : application aux laves volcaniques}, school = {M2R math\'ematiques appliqu\'es, Grenoble}, year = 2007, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/Aymen-Laadhari-dea-2007.pdf}, keywords = {model!viscoplastic!bingham, model!asymptotic!shallow!flow!lubrication, test case!dam break, software!fem!rheolef} }
@phdthesis{Laa-2011-these, author = {A. Laadhari}, title = {Mod\'elisation num\'erique de la dynamique des globules rouges par la m\'ethode des fonctions de niveau}, school = {Universit\'e de Grenoble}, year = 2011, url = {http://tel.archives-ouvertes.fr/docs/00/59/82/51/PDF/Aymen_Laadhari_Phd.pdf}, keywords = {material!vesicle!dynamic, model!helfrich, equation!instability, method!level set, method!discrete mass conservation, software!fem!rheolef} }
@article{LaaMisSar-2010, author = {A. Laadhari and C. Misbah and P. Saramito}, title = {On the equilibrium equation for a generalized biological membrane energy by using a shape optimization approach}, journal = {Phys. D}, volume = {239}, pages = {1568-1572}, year = 2010, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/LaaMisSar-2010.pdf}, keywords = {method!level set, analysis!optimization!shape, model!helfrich, software!fem!rheolef} }
@article{LaaSarMis-2010, author = {A. Laadhari and P. Saramito and C. Misbah}, title = {Improving the mass conservation of the level set method}, journal = {C. R. Acad. Sci. Paris, ser. I}, volume = 348, pages = {535--540}, year = 2010, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/cr2009.pdf}, keywords = {method!level set,equation!hamilton jacobi!eikonal!evolution, method!discrete mass conservation, test case!zalesak, software!fem!rheolef} }
@article{LaaSarMis-2012, author = {A. Laadhari and P. Saramito and C. Misbah}, title = {Vesicle tumbling inhibited by inertia}, journal = {Phys. Fluids}, volume = 24, pages = {031901}, year = 2012, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/inertia.pdf}, keywords = {material!vesicle!dynamic, model!helfrich, equation!instability, method!level set, software!fem!rheolef} }
@article{LaaSarMis-2014, author = {A. Laadhari and P. Saramito and C. Misbah}, title = {Computing the dynamics of biomembranes by combining conservative level set and adaptive finite element methods}, journal = {J. Comput. Phys.}, volume = 263, pages = {328--352}, year = 2014, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/dynamique.pdf}, keywords = {material!vesicle!dynamic, model!helfrich, equation!instability, method!level set, method!discrete mass conservation, software!fem!rheolef} }
@article{LaaSarMis-2016, author = {A. Laadhari and P. Saramito and C. Misbah}, title = {An adaptive finite element method for the modeling of the equilibrium of red blood cells}, journal = {Int. J. Numer. Meth. Fluids}, volume = 80, number = 7, pages = {397--428}, year = 2016, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/LaaSarMis-2014-b.pdf}, keywords = {material!vesicle!static, model!helfrich, method!level set, method!discrete mass conservation, software!fem!rheolef} }
@article{LaaSarMisSze-2017, author = {Laadhari, A. and Saramito, P. and Misbah, C. and Sz{\'e}kely, G.}, title = {Fully implicit methodology for the dynamics of biomembranes and capillary interfaces by combining the level set and {Newton} methods}, journal = {J. Comput. Phys.}, volume = {343}, pages = {271--299}, year = {2017}, keywords = {method!level set, test case!drop!rising, model!helfrich, method!newton, software!fem!rheolef} }
@article{LaaSarSze-2016, author = {A. Laadhari and P. Saramito and G. Sz\'ekely}, title = {Fully implicit method for capillary forces in incompressible two-phase flow}, journal = {submitted}, year = 2016, keywords = {method!level set, test case!drop!rising, method!newton, software!fem!rheolef} }
@mastersthesis{Lau-2001-m2r, author = {C. Lauvernet}, title = {Adaptation de maillage pour la mod\'elisation num\'erique des avalanches et des laves torrentielles par des \'equations moyenn\'ees dans l'\'epaisseur}, school = {DEA Universit\'e J. Fourier, Grenoble}, year = 2001, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/Claire-Lauvernet-dea.ps.gz}, keywords = {model!viscoplastic!herschel-bulkley,model!asymptotic!shallow!flow!lubrication, test case!dam break, software!fem!rheolef} }
@mastersthesis{Loh-2009-m2r, author = {J. Loh\'eac}, title = {Simulation num\'erique de la d\'eformation d'un globule rouge dans une art\`ere}, school = {M2R Universit\'e J. Fourier, Grenoble}, year = 2009, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/Loh-2009-m2r.pdf}, keywords = {model!interface, test case!flag, method!fem!boundary-lagrange-multiplier, software!fem!rheolef} }
@misc{MaiBouSarSau-2005, author = {E. Maitre and H. Boumaraf and P. Saramito and B. Sauvage}, title = {Laboratoire de mod\'elisation et de calcul}, note = {DVD, IMAG \'editions, S. Despr\'eaux (ed.), Grenoble}, year = 2005, url = {https://www-ljk.imag.fr/membres/Pierre.Saramito/dvd-labo-05.wmv}, keywords = {material!snow avalanche, biology!cell, geometry!computational, popularization!mathematic, document!movie, software!fem!rheolef} }
@mastersthesis{Oze-2014-m2r, author = {O. Ozenda}, title = {Mod\'elisation multicouche d'\'ecoulements visqueux minces et calculs thermiques appliqu\'es \`a la simulation d'\'epanchements de lave}, school = {M2R Universit\'e J. Fourier, Grenoble}, year = 2014, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/olivier-ozenda-m2r.pdf}, keywords = {material!lava, model!asymptotic!shallow!flow!multilayer, model!viscoplastic!herschel-bulkley, model!thermic, software!fem!rheolef} }
@phdthesis{Oze-2019-these, author = {O. Ozenda}, title = {Mod\'elisation continue de la rh\'eologie des suspensions et de la migration}, school = {Universit\'e de Grenoble-Alpes}, year = 2019, note = {\url{http://www-ljk.imag.fr/membres/Pierre.Saramito/Oze-2019-these.pdf}}, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/Oze-2019-these.pdf}, keywords = {material!soft glassy!suspension!non-colloid, model!rate-independent, model!fabric-tensor, software!fem!rheolef} }
@article{OzeSarCha-2018, author = {O. Ozenda and P. Saramito and G. Chambon}, title = {A new rate-independent tensorial model for suspensions of non-colloidal rigid particles in Newtonian fluids}, journal = {J. Rheol.}, volume = {62}, pages = {889-903}, year = 2018, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/OzeSarCha-2018.pdf}, keywords = {material!soft glassy!suspension!non-colloid, model!rate-independent, model!fabric-tensor, software!fem!rheolef} }
@article{OzeSarCha-2020, author = {O. Ozenda and P. Saramito and G. Chambon}, title = {Tensorial rheological model for concentrated non-colloidal suspensions: normal-stress differences}, journal = {to appear}, year = 2020, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/OzeSarCha-2020.pdf}, keywords = {material!soft glassy!suspension!non-colloid, model!rate-independent, model!fabric-tensor, software!fem!rheolef, test case!shear!normal-stress-difference!second} }
@article{OzeSarCha-2022, author = {O. Ozenda and P. Saramito and G. Chambon}, title = {Shear-induced migration in concentrated suspensions: particle mass conservation, contact pressure and jamming}, journal = {J. Non-Newt. Fluid. Mech.}, volume = {304}, pages = {104805}, year = 2022, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/OzeSarCha-2022.pdf}, keywords = {material!soft glassy!suspension!non-colloid, model!migration, software!fem!rheolef, analysis!optimization!non-smooth, analysis!optimization!complementarity, method!augmented lagrangian!uzawa} }
@article{PigHacSar-2019, author = {F. Pigeonneau and E. Hachem and P. Saramito}, title = {Discontinuous {Galerkin} finite element method applied to the coupled unsteady {Stokes/Cahn-Hilliard} equations}, journal = {Int. J. Numer. Meth. Fluids}, volume = 90, number = 6, pages = {267--295}, year = 2019, doi = {https://doi.org/10.1002/fld.4720}, url = {https://www-ljk.imag.fr/membres/Pierre.Saramito/PigHacSar-2019.pdf}, keywords = {model!cahn-hilliard, method!discontinuous, software!fem!rheolef} }
@inproceedings{PigSar-2016-icmf, author = {F. Pigeonneau and P. Saramito}, title = {Discontinuous {Galerkin} finite element method applied to the coupled {Navier-Stokes}/{Cahn-Hilliard} equations}, booktitle = {9th international conference on multiphase flow (ICMF)}, year = 2016, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/PigSar-2016-icmf.pdf}, keywords = {model!cahn-hilliard, method!discontinuous, software!fem!rheolef, test case!capillary rising, model!capillary} }
@phdthesis{Roq-2000-these, author = {N. Roquet}, title = {R\'esolution num\'erique d'\'ecoulements \`a effets de seuil par \'el\'ements finis mixtes et adaptation de maillage}, school = {Universit\'e J. Fourier, Grenoble}, year = 2000, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/Nicolas-Roquet-these.pdf}, keywords = {model!viscoplastic!bingham, method!augmented lagrangian, method!adapt, test case!obstacle!cylinder, model!slip, test case!pipe section, software!fem!rheolef} }
@article{RoqMicSar-2000, author = {N. Roquet and R. Michel and P. Saramito}, title = {Errors estimate for a viscoplastic fluid by using {P}k finite elements and adaptive meshes}, journal = {C. R. Acad. Sci. Paris, ser. I}, volume = {331}, number = {7}, pages = {563-568}, year = 2000, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/cr2000.pdf}, keywords = {model!viscoplastic!bingham, method!augmented lagrangian, method!adapt, test case!pipe section, software!fem!rheolef, method!error estimate} }
@article{RoqSar-2003, author = {N. Roquet and P. Saramito}, title = {An adaptive finite element method for {B}ingham fluid flows around a cylinder}, journal = {Comput. Meth. Appl. Mech. Engrg.}, volume = 192, number = {31-32}, pages = {3317-3341}, year = 2003, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/cylindre.pdf}, keywords = {model!viscoplastic!bingham, method!augmented lagrangian, method!adapt, test case!obstacle!cylinder, software!fem!rheolef} }
@article{RoqSar-2004, author = {N. Roquet and P. Saramito}, title = {Stick-slip transition capturing by using an adaptive finite element method}, journal = {M2AN}, volume = 38, number = 2, pages = {249--260}, year = 2004, url = {http://archive.numdam.org/article/M2AN_2004__38_2_249_0.djvu}, keywords = {model!slip, method!augmented lagrangian, method!adapt, test case!pipe section, software!fem!rheolef} }
@article{RoqSar-2008, author = {N. Roquet and P. Saramito}, title = {An adaptive finite element method for viscoplastic flows in a square pipe with stick-slip at the wall}, journal = {J. Non-Newt. Fluid Mech.}, volume = 155, pages = {101--115}, year = 2008, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/bingham-slip.pdf}, keywords = {model!viscoplastic!bingham, model!slip, method!augmented lagrangian, method!adapt, test case!pipe section, software!fem!rheolef} }
@phdthesis{Sar-2002-hdr, author = {P. Saramito}, title = {Algorithmes et logiciels pour la simulation num\'erique en fluides non-newtoniens}, school = {HDR, Universit\'e J. Fourier}, year = 2002, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/habi.pdf}, keywords = {software!fem!rheolef, model!viscoplastic!bingham, method!adapt, model!viscoelastic!oldroyd, method!splitting scheme!theta scheme, test case!contraction, test case!obstacle!cylinder} }
@article{Sar-2007, author = {P. Saramito}, title = {A new constitutive equation for elastoviscoplastic fluid flows}, journal = {J. Non-Newt. Fluid Mech.}, volume = 145, number = 1, pages = {1-14}, year = 2007, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/evp.pdf}, keywords = {model!elastoviscoplastic!saramito, model!viscoelastic!oldroyd, model!viscoplastic!bingham, test case!shear!periodic, model!thermodynamic!dissipation-potential!standard-material, software!fem!rheolef} }
@article{Sar-2009, author = {P. Saramito}, title = {A new elastoviscoplastic model based on the {Herschel-Bulkley} viscoplasticity}, journal = {J. Non-Newt. Fluid Mech.}, volume = 158, number = {1--3}, pages = {154--161}, year = 2009, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/evp-hb.pdf}, keywords = {model!elastoviscoplastic!saramito, model!viscoplastic!herschel-bulkley, model!viscoplastic!bingham, test case!shear!periodic, model!thermodynamic!dissipation-potential!standard-material, software!fem!rheolef} }
@book{Sar-2013-cours-cxx, author = {P. Saramito}, title = {Language C++ et calcul scientifique}, publisher = {College Publications}, address = {London}, year = 2013, keywords = {document!lecture note, programming!cxx, matrix!solver!iterative!conjugate gradient, matrix!sparse, analysis!fourier transform!fft, matrix!toeplitz, matrix!tridiagonal, software!fem!rheolef} }
@article{Sar-2014, author = {P. Saramito}, title = {On a modified non-singular log-conformation formulation for {Johnson-Segalman} viscoelastic fluids}, journal = {J. Non-Newt. Fluid Mech.}, volume = 211, pages = {16--30}, year = 2014, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/js_paper.pdf}, keywords = {model!viscoelastic!reformulation!logarithmic, matrix!logarithm, method!fem!tensor!symmetric!p1d-p2-p1, model!tensor-derivative!gordon-schowalter, model!viscoelastic!oldroyd, test case!cavity, method!fem!tensor!symmetric!p1d-p2-p1, method!fem!vector!scott-vogelius, method!fem!divergence-free, software!fem!rheolef, method!newton} }
@article{Sar-2016, author = {P. Saramito}, title = {A damped {Newton} algorithm for computing viscoplastic fluid flows}, journal = {J. Non-Newt. Fluid Mech.}, volume = 238, pages = {6--15}, year = 2016, url = {https://hal.archives-ouvertes.fr/hal-01228347/document}, keywords = {model!viscoplastic!herschel-bulkley, method!newton!inexact, method!newton!damped, test case!pipe section, software!fem!rheolef} }
@book{Sar-2016-cfma, author = {P. Saramito}, title = {Complex fluids: modelling and algorithms}, publisher = {Springer}, year = 2016, libgen_url = {http://libgen.io/get/4D79D71C5F0A2396D9A1CD945F2D0A8C/%28Math%C3%A9matiques%20et%20Applications%2079%29%20Pierre%20Saramito%20%28auth.%29-Complex%20fluids_%20Modeling%20and%20Algorithms-Springer%20International%20Publishing%20%282016%29.pdf}, keywords = {model!navier-stokes, model!power-law fluid, model!viscoplastic, model!viscoelastic, model!elastoviscoplastic!saramito, software!fem!rheolef} }
@article{Sar-2021, author = {P. Saramito}, title = {A new brittle-elastoviscoplastic fluid based on the {Drucker-Prager} plasticity}, journal = {J. Non-Newt. Fluid Mech.}, volume = {294}, pages = {104584}, year = 2021, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/bevp.pdf}, keywords = {model!elastoviscoplastic!saramito, model!viscoelastic!oldroyd, model!viscoplastic!bingham, model!thermodynamic!dissipation-potential!standard-material, software!fem!rheolef, model!viscoplastic!drucker-prager, model!damage!stress-equivalent-criterion!mohr-coulomb, test case!creeping!2d} }
@book{Sar-cours-non-newtonien, author = {P. Saramito}, title = {M\'ethodes num\'eriques en fluides complexes~: th\'eorie et algorithmes}, publisher = {CNRS-CCSD}, note = {\url{http://cel.archives-ouvertes.fr/cel-00673816}}, year = 2013, url = {http://cel.archives-ouvertes.fr/cel-00673816}, keywords = {model!viscoplastic!bingham, model!elastoviscoplastic!saramito, model!viscoplastic!herschel-bulkley, test case!poiseuille, document!lecture note, software!fem!rheolef} }
@article{SarDanWei-2021, author = {P. Saramito and V. Dansereau and J. Weiss}, title = {Linking bulk modulus to an unilateral damage yield criterion: a thermodynamic modeling approach}, journal = {Int. J. Damage Mech.}, volume = 30, number = 7, pages = {1123--1145}, year = 2021, url = {https://www-ljk.imag.fr/membres/Pierre.Saramito/SarDanWei-2021.pdf}, keywords = {model!damage!compression-dilatation, model!damage!stress-equivalent-criterion!mohr-coulomb, model!thermodynamic!dissipation-potential!standard-material, software!fem!rheolef} }
@book{Sar-rheolef2-dg, author = {P. Saramito}, title = {Efficient {C++} finite element computing with {Rheolef}: volume 2: discontinuous Galerkin methods}, publisher = {CNRS and LJK}, year = 2015, note = {\url{http://cel.archives-ouvertes.fr/cel-00863021}}, url = {http://cel.archives-ouvertes.fr/cel-00863021}, keywords = {software!fem!rheolef, method!fem, method!discontinuous} }
@book{Sar-rheolef, author = {P. Saramito}, title = {Efficient {C++} finite element computing with {Rheolef}}, publisher = {CNRS and LJK}, year = 2018, note = {\url{http://cel.archives-ouvertes.fr/cel-00573970}}, url = {http://cel.archives-ouvertes.fr/cel-00573970/document}, keywords = {software!fem!rheolef, method!fem!implementation!embeded-language} }
@misc{Sar-rheolef-site, author = {P. Saramito}, title = {An efficient {C++} finite element environment}, year = 2018, note = {web page~: \url{https://www-ljk.imag.fr/membres/Pierre.Saramito/rheolef}}, url = {https://www-ljk.imag.fr/membres/Pierre.Saramito/rheolef}, keywords = {software!fem!rheolef, method!fem!implementation!embeded-language} }
@article{SarRoq-2001, author = {P. Saramito and N. Roquet}, title = {An adaptive finite element method for viscoplastic fluid flows in pipes}, journal = {Comput. Meth. Appl. Mech. Engrg.}, volume = 190, number = {40-41}, pages = {5391-5412}, year = 2001, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/publi-poiseuille.pdf}, keywords = {model!viscoplastic!bingham, method!augmented lagrangian, method!adapt, test case!pipe section, software!fem!rheolef} }
@article{SarSmuCor-2013, author = {P. Saramito and C. Smutek and B. Cordonnier}, title = {Numerical modeling of shallow non-{Newtonian} flows. {Part I}. {The} horizontal dam break problem revisited}, journal = {Int. J. Numer. Anal. Model. B}, volume = 4, number = 3, pages = {283-298}, year = 2013, url = {http://www.math.ualberta.ca/ijnamb/Volume-4-2013/No-3-13/2013-03-06.pdf}, keywords = {test case!dam break, model!power-law fluid, model!asymptotic!shallow!flow!lubrication, software!fem!rheolef} }
@article{SarWac-2017, author = {P. Saramito and A. Wachs}, title = {Progress in numerical simulation of yield stress fluid flows}, journal = {J. Rheol.}, volume = 56, number = 3, pages = {211--230}, year = 2017, keywords = {model!viscoplastic!bingham, model!viscoplastic!herschel-bulkley, method!newton!inexact, method!newton!damped, method!augmented lagrangian!uzawa, software!fem!rheolef} }
@inproceedings{SchBigHaqSarSmu-2020, author = {T. Schiano and B. Bigot and J.-F. Haquet and P. Saramito and C. Smutek}, title = {Modelling and numerical simulation of the spread of a dense and high-temperature fluid}, booktitle = {20\`eme congr\`es fran\c{c}ais de thermique}, url = {https://www.sft.asso.fr/DOIeditions/CFT2020/PDF/176_doi.pdf}, pages = {176--183}, year = 2020, url = {https://gallica.bnf.fr/ark:/12148/bpt6k61389174/f271n4.pdf?download=1}, keywords = { material!corium, material!lava, model!viscoplastic!herschel-bulkley, model!asymptotic!shallow!flow!lubrication, software!fem!rheolef} }
@inproceedings{SchBigHaqSarSmu-2022, author = {T. Schiano and B. Bigot and J.-F. Haquet and P. Saramito and C. Smutek}, title = {Non-{Newtonian} spreading simulation of molten nuclear combustible}, booktitle = {7th world congress on momentum, heat and mass transfer (MHMT'22)}, year = 2022, keywords = {test case!dam break, model!viscoplastic!herschel-bulkley, model!asymptotic!shallow!flow, software!fem!rheolef, model!thermic, material!corium} }
@mastersthesis{Sho-2020-m2r, author = {N. Shourick}, title = {Asymptotic expansion and numerical simulation in viscoelastic fluids with application to biological tissues}, school = {M2 de l'universit\'e de Grenoble}, year = 2020, keywords = {model!viscoelastic!oldroyd, model!stokes, model!asymptotic!shallow!flow!viscous, model!slip, software!fem!rheolef, test case!obstacle!cylinder, material!tissue} }
@inproceedings{TaPigSar-2016-icmf, author = {M. Ta and F. Pigeonneau and P. Saramito}, title = {An implicit high order discontinuous {Galerkin} level set method for two-phase flow problems}, booktitle = {9th international conference on multiphase flow (ICMF)}, year = 2016, url = {http://www-ljk.imag.fr/membres/Pierre.Saramito/TaPigSar-2016-icmf.pdf}, keywords = {method!level set, method!discontinuous, software!fem!rheolef, test case!zalesak, test case!drop!oscillating} }
@mastersthesis{Yan-2010-m2r, author = {Yangba Makoumbo, N.-J.}, title = {Simulation num\'erique des coul\'ees d'un volcan}, school = {M2R Universit\'e d'Angers}, year = 2010, keywords = {material!lava, model!viscoplastic!herschel-bulkley,model!asymptotic!shallow!flow!lubrication, test case!dam break, software!fem!rheolef} }
@article{PigXuVinAga-2020, author = {Pigeonneau, F. and Xu, D. and Vincent, M. and Agassant, J.-F.}, title = {Heating and flow computations of an amorphous polymer in the liquefier of a material extrusion {3D} printer}, journal = {Additive Manufacturing}, volume = {32}, pages = {101001}, year = {2020}, keywords = {software!fem!rheolef, model!power-law fluid, model!thermic} }
@article{BreMil-2008, author = {Bresch, D. and Milisic, V.}, title = {Vers des lois de parois multi-{\'e}chelle implicites}, journal = {C. R. Math.}, volume = {346}, number = {15}, pages = {833--838}, year = {2008}, keywords = {software!fem!rheolef, model!asymptotic!shallow!flow!boundary layer} }
@article{BreMil-2010, author = {Bresch, D. and Milisic, V.}, title = {High order multi-scale wall-laws, {Part I}: the periodic case}, journal = {Quart. Appl. Math.}, volume = {68}, pages = {229--253}, year = {2010}, keywords = {software!fem!rheolef, model!asymptotic!shallow!flow!boundary layer} }
@article{BerBudGagRukTerFau-2017, author = {N. Bernabeu and O. Budenkova and A. Gagnoud and S. Rukolaine and du Terrail Couvat, Y. and Y. Fautrelle}, title = {Modeling of coupled convective and magneto-thermoelectric phenomena for a sphere immersed in liquid metal using finite element method and adaptive meshes}, journal = {Magnetohydrodynamics}, volume = 53, number = 1, pages = {149--158}, year = 2017, keywords = {software!fem!rheolef, model!thermic, model!electromagnetism} }
@article{BudBerRukTerGagTarFau-2017, author = {O. Budenkova and N. Bernabeu and S. Rukolaine and du Terrail Couvat, Y. and A. Gagnoud and R. Tarpagkou and Y. Fautrelle}, title = {Thermoelectric problem for an axisymmetric ellipsoid particle in the liquid metal: analytical solution and numerical modeling}, journal = {Appl. Math. Model.}, volume = 45, pages = {590--605}, year = 2017, keywords = {software!fem!rheolef, model!thermic, model!electromagnetism} }
@article{EtiHinLi-2006, author = {J. \'Etienne and E. J. Hinch and J. Li}, title = {A {Lagrangian}-{Eulerian} approach for the numerical simulation of free-surface flow of a viscoelastic material}, journal = {J. Non-Newt. Fluid Mech.}, volume = 136, number = {2--3}, pages = {157--166}, year = 2006, keywords = {model!viscoelastic!oldroyd, test case!obstacle!cylinder, model!free surface, method!ale, software!fem!rheolef} }
@phdthesis{Ser-2011-these, author = {Z. Servadio}, title = {Apports de l'imagerie \`a haute r\'esolution spectrale et spatiale dans les bilans de volume et les bilans radiatifs au {Piton de La Fournaise}}, school = {Universit\'e de La R\'eunion}, year = 2011, url = {http://tel.archives-ouvertes.fr/docs/00/85/87/49/PDF/2011Lare0020_Servadio_conf.pdf}, keywords = {material!lava, experimental, model!thermic, software!fem!rheolef} }
@book{HarGroGarCar-2016, editor = {A. J. L. Harris and de Groeve, T. and F. Garel and S. A. Carn}, title = {Detecting, modelling and responding to effusive eruptions}, publisher = {Geol. Soc.}, address = {London}, year = 2016, keywords = {test case!dam break, model!viscoplastic!herschel-bulkley, model!asymptotic!shallow!flow!topography, software!fem!rheolef, model!thermic, material!lava} }
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