Simulation of gelled propellant doughs isothermal flow through extrusion dies using finite difference method
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Martínez Pastor, Juan; Franco Chumillas, Patricio; Moratilla Fernández, Domingo; López García, Pedro José; Faura Mateu, FélixÁrea de conocimiento
Ingeniería de los Procesos de FabricaciónPatrocinadores
The researchers acknowledge to the Spanish Ministry of Economy and Competitiveness and the European Commission their support throughout the ERDF (European Regional Development Fund) by the INNPACTO research project “Smart Propellants” (IPT-2011-0712-020000), involving EXPAL Systems S.A. and Universidad Politecnica de Cartagena (UPCT).Fecha de publicación
2017Editorial
ElsevierCita bibliográfica
Martínez-Pastor, J., Franco, P., Moratilla, D., López-García, P. J., & Faura, F. (2017). Simulation of gelled propellant doughs isothermal flow through extrusion dies using finite difference method. Procedia Manufacturing, 13, 410–417. doi:10.1016/j.promfg.2017.09.033Palabras clave
Gelled propellantsRam extrusion
Numerical simulation
Extrusion die
Annular channels
Resumen
During the ram extrusion of gelled propellants, the possible flow instabilities can affect the extruded propellant quality. The numerical modelling helps to enhance the geometry of extrusion die, by minimizing the product distortion caused by material flow during this forming process. In the present work, a numerical model based on the finite difference method is proposed to analyze the flow simulation of double-base gelled propellant doughs through annular channels of extrusion dies. The proposed model implements the pseudo-plastic behavior described by these energetic materials. This model will be used to deduce the configuration of spider legs and annular channels that allow optimize the quality of extruded gelled propellant.
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