Numerical modeling of vacuum-assisted resin transfer molding using multilayer approach
作者: Raounak Loudad , Abdelghani Saouab , Pierre Beauchene , Romain Agogue , Bertrand Desjoyeaux
关键词: Compressibility 、 Process simulation 、 Materials science 、 Finite element method 、 Flow (mathematics) 、 Computation 、 Coupling 、 Vacuum assisted resin transfer molding 、 Composite material 、 Transfer molding 、 Mechanical engineering 、 Materials Chemistry 、 Mechanics of Materials 、 Ceramics and Composites
摘要: Vacuum-assisted resin transfer molding (VARTM) is a very suitable solution for composite manufacturing industry. It allows the manufacturing of large and complex shape parts at low costs. However, the simulation of this process is complicated due to myriad physical phenomena involved, specifically the strong coupling between the resin flow and the preform compressibility, i.e. hydro-mechanical coupling. Moreover, the use of the distribution medium involves two types of flow: Planar flow and through-the-thickness flow. These flows cannot be considered together by a 2D model. On the other hand, 3D models require an important amount of computation time. This article presents a VARTM modeling approach that takes into account the hydro-mechanical coupling and the coexistence of planar and transverse flows. The proposed modeling approach allows the simulation of the infusion process in the case of multilayer preform with different materials and orientations, including the distribution medium. This model is validated experimentally based on several infusions.
harvard.edu
archives-ouvertes.fr
sagepub.com
sci-hub.se 参考文章(38)
Mohammad S. Rouhi, Maciej Wysocki, Ragnar Larsson, Experimental assessment of dual-scale resin flow-deformation in composites processing Composites Part A-applied Science and Manufacturing. ,vol. 76, pp. 215- 223 ,(2015) , 10.1016/J.COMPOSITESA.2015.05.034
P. Simacek, S.G. Advani, “Equivalent” permeability and flow in compliant porous media Composites Part A-applied Science and Manufacturing. ,vol. 80, pp. 107- 110 ,(2016) , 10.1016/J.COMPOSITESA.2015.10.006
S Lopatnikov, P Simacek, J GillespieJr, S G Advani, A closed form solution to describe infusion of resin under vacuum in deformable fibrous porous media Modelling and Simulation in Materials Science and Engineering. ,vol. 12, ,(2004) , 10.1088/0965-0393/12/3/S09
Renaud Gantois, Arthur Cantarel, Gilles Dusserre, Jean Noel Félices, Fabrice Schmidt, Mold Filling Simulation of Resin Transfer Molding Combining BEM and Level Set Method Applied Mechanics and Materials. ,vol. 62, pp. 57- 65 ,(2011) , 10.4028/WWW.SCIENTIFIC.NET/AMM.62.57
Josef F.A. Kessels, Attie S. Jonker, Remko Akkerman, Fully 2 1/2D flow modeling of resin infusion under flexible tooling using unstructured meshes and wet and dry compaction properties Composites Part A-applied Science and Manufacturing. ,vol. 38, pp. 51- 60 ,(2007) , 10.1016/J.COMPOSITESA.2006.01.025
Christopher Williams, John Summerscales, Stephen Grove, Resin Infusion under Flexible Tooling (RIFT): a review Composites Part A-applied Science and Manufacturing. ,vol. 27, pp. 517- 524 ,(1996) , 10.1016/1359-835X(96)00008-5
Jeffrey A. Acheson, Pavel Simacek, Suresh G. Advani, The implications of fiber compaction and saturation on fully coupled VARTM simulation Composites Part A-applied Science and Manufacturing. ,vol. 35, pp. 159- 169 ,(2004) , 10.1016/J.COMPOSITESA.2003.02.001
Chensong (Jonathan) Dong, An Equivalent Medium Method for the Vacuum Assisted Resin Transfer Molding Process Simulation Journal of Composite Materials. ,vol. 40, pp. 1193- 1213 ,(2006) , 10.1177/0021998305057429
M. J. Tari, J. P. Imbert, M. Y. Lin, A. S. Lavine, H. T. Hahn, Analysis of Resin Transfer Molding With High Permeability Layers Journal of Manufacturing Science and Engineering-transactions of The Asme. ,vol. 120, pp. 609- 616 ,(1998) , 10.1115/1.2830165
Sun K. Kim, Isaac M. Daniel, Transient gas flow technique for inspection of fiber preforms in resin transfer molding Composites Part A-applied Science and Manufacturing. ,vol. 36, pp. 1694- 1699 ,(2005) , 10.1016/J.COMPOSITESA.2005.03.002