In this work, a novel approach, based on the population balance equation (PBE), is presented and applied for the first time to the simulation of expanding polyurethane foams. The solution of the PBE allows to determine the evolution of the bubble size distribution (BSD) of the foam, which in turn defines the mechanical and thermal properties. The approach includes a kinetic model for the polymerization and blowing reactions, accounts for the presence of a physical blowing and for the total energy balance. Model predictions are compared with experiments from the literature for 12 different chemical recipes, highlighting acceptable agreemen
The dynamics of R-11 blown polyurethane foam formation depend on the rates of viscosity increase of ...
The dynamics of R-11 blown polyurethane foam formation depend on the rates of viscosity increase of ...
"December 2013.""A Thesis presented to the Faculty of the Graduate School at the University of Misso...
In this work, a novel approach, based on the population balance equation (PBE), is presented and app...
This study is aimed to formulate a numerical modeling recipe for polyurethane foams. The model is ca...
In this work, we apply a general multi-scale methodology to the simulation of reacting and expanding...
The existing models of the foaming process in reaction injection molding are inadequate for predicti...
A model is developed in this work for predicting the bubble size distribution in polyurethane foams ...
This work presents a multi-scale approach to reacting and expanding polyurethane (PU) foams modeling...
A model has been developed to simulate the foam characteristics obtained, when chemical (water) and ...
This study presents computational analysis of the complex dynamics observed in chemically blown poly...
In this work a transient three-dimensional mathematical model is formulated and validated for the si...
This paper computationally investigates heterogeneity in the distribution of foam fraction in chemic...
This paper presents a numerical study and approach for estimating associated parameters resulting fr...
This paper computationally investigates heterogeneity in the distribution of foam fraction in chemic...
The dynamics of R-11 blown polyurethane foam formation depend on the rates of viscosity increase of ...
The dynamics of R-11 blown polyurethane foam formation depend on the rates of viscosity increase of ...
"December 2013.""A Thesis presented to the Faculty of the Graduate School at the University of Misso...
In this work, a novel approach, based on the population balance equation (PBE), is presented and app...
This study is aimed to formulate a numerical modeling recipe for polyurethane foams. The model is ca...
In this work, we apply a general multi-scale methodology to the simulation of reacting and expanding...
The existing models of the foaming process in reaction injection molding are inadequate for predicti...
A model is developed in this work for predicting the bubble size distribution in polyurethane foams ...
This work presents a multi-scale approach to reacting and expanding polyurethane (PU) foams modeling...
A model has been developed to simulate the foam characteristics obtained, when chemical (water) and ...
This study presents computational analysis of the complex dynamics observed in chemically blown poly...
In this work a transient three-dimensional mathematical model is formulated and validated for the si...
This paper computationally investigates heterogeneity in the distribution of foam fraction in chemic...
This paper presents a numerical study and approach for estimating associated parameters resulting fr...
This paper computationally investigates heterogeneity in the distribution of foam fraction in chemic...
The dynamics of R-11 blown polyurethane foam formation depend on the rates of viscosity increase of ...
The dynamics of R-11 blown polyurethane foam formation depend on the rates of viscosity increase of ...
"December 2013.""A Thesis presented to the Faculty of the Graduate School at the University of Misso...