Numerical and experimental analyses of resin infusion manufacturing processes of composite materials - Archive ouverte HAL
Article Dans Une Revue Journal of Composite Materials Année : 2012

Numerical and experimental analyses of resin infusion manufacturing processes of composite materials

Résumé

Liquid resin infusion (LRI) processes are promising manufacturing routes to produce large, thick, or complex structural parts. They are based on the resin flow induced, across its thickness, by a pressure applied onto a preform/resin stacking. However, both thickness and fiber volume fraction of the final piece are not well controlled since they result from complex mechanisms which drive the transient mechanical equilibrium leading to the final geometrical configuration. In order to optimize both design and manufacturing parameters, but also to monitor the LRI process, an isothermal numerical model has been developed which describes the mechanical interaction between the deformations of the porous medium and the resin flow during infusion.1 , 2 With this numerical model, it is possible to investigate the LRI process of classical industrial part shapes. To validate the numerical model, first in 2D, and to improve the knowledge of the LRI process, this study details a comparison between numerical simulations and an experimental study of a plate infusion test carried out by LRI process under industrial conditions. From the numerical prediction, the filling time, the resin mass and the thickness of the preform can be determined. On another hand, the resin flow and the preform response can be monitored by experimental methods during the filling stage. One key issue of this research study is to highlight the changes in major process parameters during the resin infusion stage, such as the temperature of the preform and resin, and the variations of both thickness and fiber volume fraction of the preform. Moreover, this numerical/experimental approach is the best way to improve our knowledge on the resin infusion processes, and finally, to develop simulation tools for the design of advanced composite parts.
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Dates et versions

hal-00736359 , version 1 (16-10-2012)

Identifiants

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Peng Wang, Sylvain Drapier, Jérôme Molimard, Alain Vautrin, Jean-Christophe Minni. Numerical and experimental analyses of resin infusion manufacturing processes of composite materials. Journal of Composite Materials, 2012, 46 (13), pp.1617-1631. ⟨10.1177/0021998311421990⟩. ⟨hal-00736359⟩
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