MINES Saint-Étienne

Scientific Production

Process simulation – couplings

[57] A. Geoffre, N. Moulin, J. Bruchon and S. Drapier Upscaling transient two-phase flows in
random fibrous media: combined influence of morphology and flow regime.
Submitted.

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[56] A. Geoffre, N. Moulin, J. Bruchon and S. Drapier Reappraisal of upscaling descriptors for transient tow-phase flows in fibrous media. Transport in Porous Media, 1-30, 2023. https://doi.org/10.1007/s11242-023-01912-w

[55] E. Syerko, T. Schmidt, D. May, C. Binetruy, S.G. Advani, S. Lomov, L. Silva, … S. Drapier … Benchmark exercise on image-based permeability determination of engineering textiles: microscale predictions. Composites Part A: Applied Science and Manufacturing, 167:107397, 2023. https://doi.org/10.1016/j.compositesa.2022.107397

[54] H.N. Vo, M.F., Pucci, S. Drapier and P.J., Liotier. Capillary pressure contribution in fabrics as a function of fibre volume fraction for Liquid Composite Moulding processes. Colloids and Surfaces A 635:128120, 2022. https://doi.org/10.1016/j.colsurfa.2021.128120

[53] A. Geoffre, M. Ghestin, N. Moulin, J. Bruchon and S. Drapier Bounding transverse permeability of fibrous media: a statistical study from random representative volume elements with consideration of fluid slip. International Journal of Multiphase Flow 143, 2021. https://doi.org/10.1016/j.ijmultiphaseflow.2021.103751

 [52] L. Bouquerel, N. Moulin, S. Drapier. A contribution to the study of the forming of dry unidirectional HiTape(R) reinforcements for primary aircraft structures. Frontiers in Materials 7:571779, 2021. Open Acces https://doi.org/.10.3389/fmats.2020.571779
[51] A. Geoffre, Y. Wielhorski, N. Moulin, J. Bruchon, S. Drapier and P.-J. Liotier. Influence of intra-yarn flows on whole 3D woven fabric numerical permeability: from Stokes to Stokes-Darcy simulations. International Journal of Multiphase Flow 129, 2020. https://doi.org/10.1016/j.ijmultiphaseflow.2020.103349

[50] H.N. Vo, M.F. Pucci, S. Corn, N. Le Moigne, W. Garat, S. Drapier, and P.J. Liotier Capillary wicking in bio-based reinforcements undergoing swelling – dual scale consideration of porous medium Composites/A 134:105893, 2020. https ://doi.org/10.1016/j.compositesa.2020.105893 (2020).

[49] P.-J. Liotier, M. F. Pucci, A. Le Duigou, A. Kervoelen, J. Trillo, F. Sarasini and S. Drapier. Role of interface formation versus fibres properties in the mechanical behaviour of bio-based composites manufactured by Liquid Composite Molding processes. Composites B 163:86 — 95, 2019.

[48] Baley C., Gomina M., Breard J., Bourmaud A., Drapier S., Ferreira M., Le Duigou A., Liotier P.-J., Ouagne P., Soulat D., and Davies P. Specific features of flax fibres used to manufacture composite materials. International Journal of Material Forming, 12:1 — 30, 2019

[47] K. Andriamananjara, N. Moulin, J. Bruchon, P.-J. Liotier P, and S. Drapier. Numerical modeling of local capillary effects in porous media as a pressure discontinuity acting on the interface of a transient bi-fluid flow. International Journal of Material Forming 12(4):675 – 691, 2019

[46] L. Chevalier, J. Bruchon, P-J. Liotier, and S. Drapier. Accounting for local capillary effects in two-phase flows with relaxed surface tension formulation in enriched finite elements. Comptes Rendus de Mécanique 346 (8): 617-633, 2018.

[45] L. Bouquerel, N. Moulin, S. Drapier, P. Boisse, and J.-M. Beraud
Modelling and simulating the forming of new dry automated lay-up reinforcements for primary structures. DOI: 10.1063/1.5007995. AIP Conference Proceedings 1896(1):3008, 2017.

[44] K Andriamananjara, L. Chevalier, N. Moulin, J. Bruchon, P.-J. Liotier P, and S. Drapier. Numerical Approach for Modelling Across Scales Infusion-Based Processing of Aircraft Primary Structures. DOI 10.1063/1.5007998 AIP Conference Proceedings 1896(1):030011}, 2017.

[43] M. F. Pucci, P.-J. Liotier, D. Seveno, C. Fuentes, A. Van Vuure, S. Drapier Wetting and swelling property modifications of elementary flax fibres and their effects on the Liquid Composite Moulding process, Composites/A, 97: 31-40, 2017

[42] M. Blais, N. Moulin, P.-J. Liotier, and S. Drapier Resin infusion-based processes simulation : coupled Stokes-Darcy flows in orthotropic preforms undergoing finite strain, International Journal of Material Forming, 10(1):43-54.

[41] J.-P. Ponthot, E. Feulvarch, S. Drapier, and J.-M. Bergheau Editorial for thematic issues: computational methods in manufacturing, International Journal of Material Forming, 10(1):1-2, 2017.

[39] M.F. Pucci, M.C. Seghini, P.J. Liotier, F. Sarasini, J. Tirillo, S. Drapier, Surface characterisation and wetting properties of single basalt fibres. Composites Part B 109: 72-81, 2017.

[38] M.F. Pucci, P.-J. Liotier, and S. Drapier Tensiometric method to reliably assess wetting properties of single fibers with resins: validation on cellulosic reinforcements for composites. Colloids and Surfaces A 512:26-33, 2017.

[37] M.F. Pucci, P.-J. Liotier, and S. Drapier Capillary wicking in flax fabrics – Effects of swelling in water, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 498:176-184, 2016.

[36] J.-M. Bergheau, S. Drapier, E. Feulvarch and J.-P. Ponthot Editorial for thematic issues: computational methods in manufacturing, Comptes Rendus de Mécanique, 344 (4–5): 209-210, 2016.

[35] Y. Liu, N. Moulin, J. Bruchon, P.-J. Liotier, and S. Drapier Towards voids formation and permeability predictions in LCM processes: A computational bifluid-solid mechanics framework dealing with capillarity and wetting issues, Comptes Rendus de Mécanique, 344 (4–5):236-250, 2016.

[34] M.F. Pucci, P.-J. Liotier, and S. Drapier Capillary wicking in a fibrous reinforcement – Orthotropic issues to determine the capillary pressure components Composites/A, 77:133-141, 2015.

[33] M.F. Pucci, P.-J. Liotier, and S. Drapier Capillary effects in flax fibres – Modification and characterization of the wetting dynamics Composites/A, 77:257–265, 2015.

[32] P.-J. Liotier, Q. Govignon, E. Swery, S. Drapier, and S. Bickerton, Characterisation of woven flax fibres reinforcements; Effect of the shear on the in-plane permeability, Journal of Composite Materials, 49(27):3415–3430, 2015.

[31] G. Chardon, O. Klinkova, J. Rech, S. Drapier, and J.-M. Bergheau, Characterization of friction properties at the work material/cutting tool interface during the machining of randomly structured carbon fibers reinforced polymer with Poly Crystalline Diamond tool under dry conditions. Tribology International,81:300-308, 2015.

[30] A. Dereims, S. Drapier; J.-M. Bergheau, and P. de Luca, 3D robust iterative coupling of Stokes, Darcy and solid mechanics for low permeability media undergoing finite strains, Finite Elements in Analysis and Design, 94, 1-15, 2015

[29] L. Abou Orm, R. Troian, S. Drapier, J. Bruchon, and N. Moulin. Stokes/Darcy coupling in severe regimes using multiscale stabilization for mixed finite elements : monolithic approach versus decoupled approach. European Journal Computational Mechanics, 23(3-4), 113-137, 2014.

[28] M. Waris, P.-J. Liotier, and S. Drapier, Effect of the mold on the residual strain field monitored with optical fiber sensors in resin transfer molding processes, Journal of Composite Materials, 48(21): 2589–260, 2014.

[27] S. Drapier, Fluid/solid/porous multi-physics couplings for modelling infusion-based processing of polymer composites. Chapitre 8 (pp 359-440) in Thermomechanical Industrial Processes – Modeling and Numerical Simulation Ed. J.-M. Bergheau; Numerical Methods in Engineering Series. Wiley, ISBN 978-1-84821-358-6, 2014.

[26] D. Pino-Munoz, J. Bruchon, S. Drapier, and F. Valdivieso, Sintering at particle scale – an Eulerian computing framework to deal with strong topological and material discontinuities, Archives of Computational Methods in Engineering, 21: 141-187, 2014.

[25] A. Dereims, S. Drapier, J.-M. Bergheau, and P. de Luca. Simulations industrielles de procédés par infusion de résine, Revue des Composites et des Matériaux Avancés. 24(1):39-52, 2014.

[24]. H. Tossoukpe, F. Valdivieso, J. Bruchon, and S. Drapier 3D modelling of doped and multimaterials during sintering of a granular packing Key Engineering Materials, 554 :724-731, 2013.

[23]. L. Abou Orm, N. Moulin, J. Bruchon, and S. Drapier Monolithic approach of Stokes-Darcy coupling for LCM process modelling Key Engineering Materials, 554 :447-455, 2013.

[22] D. Pino-Munoz, J. Bruchon, S. Drapier, and F. Valdivieso Direct 3D simulation of powder sintering by surface and volume diffusion Key Engineering Materials, 554 :714-723, 2013.

[21] Y. Hou, S. Comas-Cardona, C. Binetruy, and S. Drapier, Gas transport in fibrous media: application to in-plane permeability measurement using transient flow, Journal of Composite Materials, 47(18) : 2237–2247, 2013.

[20] D. Pino-Muñoz, J. Bruchon, F. Valdivieso, and S. Drapier, A finite element-based Level-set method for fluid – elastic solid interaction with surface tension, International Journal of Numerical Methods in Engineering, 93(9) : 919–941, 2013.

[19] J. Bruchon, G. Pacquaut, S. Drapier, N. Moulin and L. Abou Orm. Simulation par éléments finis des procédés par infusion de résine, Revue des Composites et des Matériaux Avancés, 22(3):383-39, 2012.

[18] J. Bruchon, D. Pino-Muñoz, F. Valdivieso, and S. Drapier, Numerical and experimental analyses of resin infusion manufacturing processes of composite materials, Journal of the American Ceramics Society, 95(8) : 2398 – 2405, 2012.

[17] P. Wang, S. Drapier, J. Molimard, and A. Vautrin, Numerical and experimental analyses of resin infusion manufacturing processes of composite materials, Journal of Composite Materials 46(13) : 1617–1631, 2012.

[16] P. Wang, J. Molimard, S. Drapier, and A. Vautrin, Monitoring the resin infusion manufacturing process under industrial environment using distributed sensors, Journal of Composite Materials, 46(6) :691–706, 2012.

[15] G. Pacquaut, J. Bruchon, N. Moulin, et S. Drapier Combining a level set method and a mixed stabilized P1/P1 formulation for coupling Stokes-Darcy flows, International Journal for Numerical Methods in Fluids, 69 : 459–480, 2012.

[14] O. Klinkova, J. Rech, S. Drapier, and J.-M. Bergheau Characterization of friction properties at the workmaterial / cutting tool interface during the machining of randomly structured carbon fibers reinforced polymer with carbide tools under dry conditions, Tribology International, 44:2050–2058, 2011.

[13] S. Drapier, J.-M. Bergheau, Modelling of Infusion-Based Processes for Polymer Composites, in M. Schwartz, ed., Innovations in Materials Manufacturing, Fabrication, and Environmental Safety, Taylor and Francis, 2011, ISBN 1420082159.

[12] J. Bruchon, S. Drapier, and F. Valdivieso, 3D direct simulation of the matter flow by surface diffusion using a level-set method. International Journal for Numerical Methods in Engineering, 86:845–861, 2011.

[11] P. Wang, S. Drapier, J. Molimard, A. Vautrin et J.-C. Minni Monitoring and analyzing characteristics of resin flow in liquid resin infusion manfacturing processes, Acta Aeronautica et Astronautica Sinica, 31(8) :1965-1700, 2010.

[10] J. Bruchon, D. Pino-Muñoz, F. Valdivieso, S. Drapier and G. Pacquaut, 3D simulation of the matter transport by surface diffusion within a Level-Set context, European Journal of Computational Mechanics, 19:277-288, 2010.

[9] P. Wang, S. Drapier, J. Molimard and A. Vautrin, Characterization of Liquid Resin Infusion (LRI) Filling by Fringe Pattern Projection and in-situ Thermocouples, Composites / A, 41(1):36-44, 2010.

[8] P. Wang, S. Drapier, P. Celle, Jean-Michel Bergheau, A. Vautrin. Numerical study in Liquid Resin Infusion (LRI) manufacturing process. Fiber Composites, 4, pp.19-23, 2008.

[7] P. Celle, S. Drapier and J.-M. Bergheau, Numerical aspects of fluid infusion inside a compressible porous medium undergoing large strains, European Journal of Computational Mechanics, 17:819-827, 2008.

[6] P. Celle, S. Drapier and J.-M. Bergheau, Numerical modelling of liquid resin infusion into fiber preforms undergoing compaction, European Journal of Mechanics A/Solids, 7 : 647-661, 2007.

[5] D. Souriou, P. Goeuriot, G. Thomas, O. Bonnefoy, S. Drapier, S. Bourdin and L. Lazzarotto, Comparison of conventional and High Velocity Compaction of alumina powders, Advances in Science and Technology, 45 : 893-898, 2006.

[4] O. Elbouazzaoui, S. Drapier and P. Henrat, An experimental assessment of the saturated transverse permeability of Non Crimp New Concept (NC2) multiaxial fabrics, Journal of Composite Materials, 39 : 1169-1194, 2005.

[3] S. Drapier, J. Monatte, O. Elbouazzaoui and P. Henrat, Characterization of transient through thickness permeabilities of Non Crimp New Concept (NC2) multiaxial fabrics, Composites / A, 36 : 877-892, 2005.

[2] P. Celle, S. Drapier and J.-M. Bergheau, Etude d’un modèle mécanique et thermo-physicochimique pour la mise en oeuvre des matériaux composites par infusion, Revue des Matériaux Composites et Avancés, 15 : 413-419, 2005.

[1] S. Drapier, A. Pagot, A. Vautrin and P. Henrat, Influence of the stitching density on the transverse permeability of Non-Crimped New Concept (NC2) multiaxial reinforcements : measurements and predictions, Composites Science and Technology, 62 : 1979-1991, 2002.

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Biomechanics

[8] S. Drapier and P. Chabrand, eds., Using Medical Imaging to set up numerical biomechanics modelling, European Journal of Computational Mechanics, vol.1, 144 pages, Lavoisier, 2009.

[7] L. Bouten, S. Avril and S. Drapier, Mixed experimental and numerical approach for characterizing the biomechanical response of the human leg under elastic compression, Journal of Biomechanical Engineering, 132 (3), 2010.

[6] J. Hausselle, S. Drapier, J. Geringer, M. Dursapt, J. Stolarz and B. Forest., Modélisation de la croissance de défauts dans des cupules de prothèses de hanche en zircone soumises au phénomène de décoaptation, Mécanique et Industries, 9 : 153-158, 2008.

[5] L. Bouten and S. Drapier, In vivo identification of soft biological tissues using MR Imaging, European Journal of Computational Mechanics, 18 : 21-32, 2008.

[4] S. Drapier and I. Gaied, Identification strategy for orthotropic knitted elastomeric fabrics under large biaxial deformations., Inverse Problems in Science and Engineering, 15 : 871–894, 2007.

[3] I. Gaied, S. Drapier and B. Lun, Experimental assessment and analytical 2D predictions of the stocking pressures induced on a model leg by Medical Compressive Stockings, Journal of Biomechanics, 39 : 3017-3025, 2006.

[2] J.-F. Uhl, I. Gaied, S. Drapier and B. Lun, Pression théorique et mesurée in situ des bas médicaux de compression : apport de l’imagerie médicale et des techniques de simulations numériques., Phlébologie, 58 : 131-138, 2005.

[1] I. Gaied and S. Drapier, Identification de la loi de comportement d’un tricot élastique en grandes déformations, Revue des Matériaux Composites et Avancés, 13 : 263-272, 2003.

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 Mechanics of Materials and Instabilities

[16] D. Al Akhrass, J. Bruchon, S. Drapier, and S. Fayolle, Integrating a logarithmic-strain based hyperelastic formulation into a three-field mixed finite element formulation to deal with incompressibility in finite-strain elastoplasticity, Finite Elements in Analysis and Design,  86C:61-70, 2014

[15] S. Drapier, D. Coutellier and P. Gilles, eds., Mécanique et Industries : Numéro spécial Giens’07, EDP Publisher, 2009.

[14] A. Combescure, P. Gilles, D. Coutellier, S. Drapier and J.-M. Bergheau, eds., Actes du 8ième Colloque National en Calcul des Structures, Giens 21-25 mai 2007, Hermès – Lavoisier, Giens (83), France, 2007.

[13] L. Léotoing, S. Drapier and A. Vautrin, Using new close form solutions to setup design diagrams and numerical models for the global and local buckling of sandwich beams, Journal of Sandwich Structures and Materials, 6 : 263-289, 2004.

[12] L. Léotoing, S. Drapier and A. Vautrin, Nonlinear Interaction of Geometrical and Material Properties in Sandwich Structures Instabilities., International Journal of Solids and Structures, 39 : 3717-3739, 2002.

[11] L. Léotoing, S. Drapier and A. Vautrin, First applications of a novel unified approach model for global and local buckling of sandwich columns., European Journal of Mechanics A/Solids, 21 : 683-701, 2002.

[10] S. D. L. Dufort, et M. Grédiac, The cross section warping in short beams under three point bending : an analytical study., Composites Structures, 52 : 233-246, 2001.

[9] S. Drapier, J.-C. Grandidier and M. M. Potier-Ferry, A structural approach of plastic microbuckling in long fibre composites : comparison with theoretical and experimental results., International Journal of Solids and Structures, 38 : 3877-3804, 2001.

[8] S. Drapier, C. Jochum, J.-C. Grandidier. and M. Potier-Ferry, Structural plastic microbuckling and compressive strength of long-fibre composite materials, in G.Maugin, ed., Continuum thermomechanics : the art of science and modelling material’s behaviour, Kluwer Academic Publisher, 2000, pp. 125-136.

[7] S. Drapier and M. R. Wisnom, Finite element investigation of the interlaminar shear strength of non-crimp fabric based composites, Composites Science and Technology, 59 : 2351-2362, 1999.

[6] S. Drapier and M. R. Wisnom, Finite-element investigation of the compressive strength of non-crimp-fabric-based composites., Composites Science and Technology, 59 : 1287-1297, 1999.

[5] S. Drapier, J.-C. Grandidier and M. Potier-Ferry, Towards a numerical model of the compressive strength for long fibre composites, European Journal of Mechanics A/Solids, 18 : 69-92, 1999.

[4] S. Drapier, J.-C. Grandidier and M. Potier-Ferry, Non-linear numerical approach to microbuckling, Composites Science and Technology, 58 : 785-790, 1998.

[3] S. Drapier, J.-C. Grandidier and M. Potier-Ferry, Theoretical study of structural effects on the compressive strength of laminate composites., Compte-Rendus de l’Académie des Sciences de Paris, 324 : 219-227, 1997.

[2] S. Drapier, J.-C. Grandidier, C. Gardin and M. Potier-Ferry, Structure effect and microbuckling, Composites Science and Technology, 56 : 861-867, 1996.

[1] S. Drapier, J.-C. Grandidier and M. M. Potier-Ferry, Comportement mécanique des structures composites en compression, La lettre d’Apollor, 1994.

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