This work aims to model and to simulate the polyurethane foaming process. Models taking into account the two main chemical reactions of the formation of polyurethane, the exothermic effect of these reactions as well as the thermo-rheo-kinetic coupling characterizing this process are proposed and implemented in the software NOGRID-points based on a meshless method (Finite Pointset Method). A prediction of some acoustic foam characteristics is also proposed based on the results of the numerical simulation of the foaming process and semi-phenomenological models
This study is aimed to formulate a numerical modeling recipe for polyurethane foams. The model is ca...
The sound absorption ability of porous materials is strongly related to the underlying microstructur...
The dynamics of R-11 blown polyurethane foam formation depend on the rates of viscosity increase of ...
Avec l'augmentation de l'utilisation des mousses polyuréthanes dans l'industrie automobile et la com...
International audienceA key problem in the modeling of polyurethane foaming is the determination of ...
International audienceA key problem in the modeling of polyurethane foaming is the determination of ...
This paper presents a numerical study and approach for estimating associated parameters resulting fr...
This study presents computational analysis of the complex dynamics observed in chemically blown poly...
Publié suite au congrès : EUROMECH Colloquium 459, Inst Natl Polytechn Lorraine, Nancy, FRANCE, JUN ...
Polymer foams are difficult to characterise due to rapidly evolving physical features from liquid to...
International audienceIn this paper, a phenomenological model for the expansion stage of flexible po...
In this work a transient three-dimensional mathematical model is formulated and validated for the si...
The dynamics of R-11 blown polyurethane foam formation depend on the rates of viscosity increase of ...
Flexible polyurethane foams are widely used in cushioning and packaging applications. A model for th...
Flexible polyurethane foams are widely used in cushioning and packaging applications. A model for th...
This study is aimed to formulate a numerical modeling recipe for polyurethane foams. The model is ca...
The sound absorption ability of porous materials is strongly related to the underlying microstructur...
The dynamics of R-11 blown polyurethane foam formation depend on the rates of viscosity increase of ...
Avec l'augmentation de l'utilisation des mousses polyuréthanes dans l'industrie automobile et la com...
International audienceA key problem in the modeling of polyurethane foaming is the determination of ...
International audienceA key problem in the modeling of polyurethane foaming is the determination of ...
This paper presents a numerical study and approach for estimating associated parameters resulting fr...
This study presents computational analysis of the complex dynamics observed in chemically blown poly...
Publié suite au congrès : EUROMECH Colloquium 459, Inst Natl Polytechn Lorraine, Nancy, FRANCE, JUN ...
Polymer foams are difficult to characterise due to rapidly evolving physical features from liquid to...
International audienceIn this paper, a phenomenological model for the expansion stage of flexible po...
In this work a transient three-dimensional mathematical model is formulated and validated for the si...
The dynamics of R-11 blown polyurethane foam formation depend on the rates of viscosity increase of ...
Flexible polyurethane foams are widely used in cushioning and packaging applications. A model for th...
Flexible polyurethane foams are widely used in cushioning and packaging applications. A model for th...
This study is aimed to formulate a numerical modeling recipe for polyurethane foams. The model is ca...
The sound absorption ability of porous materials is strongly related to the underlying microstructur...
The dynamics of R-11 blown polyurethane foam formation depend on the rates of viscosity increase of ...