Alleviating mesh constraints: Model reduction, parallel time integration and high resolution homogenization
F Chinesta, A Ammar, F Lemarchand… - Computer methods in …, 2008 - Elsevier
F Chinesta, A Ammar, F Lemarchand, P Beauchene, F Boust
Computer methods in applied mechanics and engineering, 2008•ElsevierIndustrial processes involving composite materials need for efficient numerical simulations
in order to optimize the process parameters. Even if the thermo-mechanical models are
nowadays well established, efficient simulations need for further developments. In this work
we are addressing some of these issues, in particular the one related to fast solutions
combining model reduction and parallel time integration. A separated representation will be
also proposed in the context of material homogenization allowing to alleviate the usual …
in order to optimize the process parameters. Even if the thermo-mechanical models are
nowadays well established, efficient simulations need for further developments. In this work
we are addressing some of these issues, in particular the one related to fast solutions
combining model reduction and parallel time integration. A separated representation will be
also proposed in the context of material homogenization allowing to alleviate the usual …
Industrial processes involving composite materials need for efficient numerical simulations in order to optimize the process parameters. Even if the thermo-mechanical models are nowadays well established, efficient simulations need for further developments. In this work we are addressing some of these issues, in particular the one related to fast solutions combining model reduction and parallel time integration. A separated representation will be also proposed in the context of material homogenization allowing to alleviate the usual mesh constraints.
Elsevier
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