Numerical modeling of internal heating curing of glass reinforced epoxy pipes

Numerical modeling of internal heating curing of glass reinforced epoxy pipes

A dynamic one‐dimensional model is developed to simulate the novel internal heating curing process in the manufacturing of glass reinforced epoxy pipes by filament winding. The model combines the energy balance with a mechanistic kinetic approach and it is experimentally validated using industrial p...

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Veröffentlicht in:Polymer engineering and science 2015-11, Vol.55 (11), p.2626-2635
Hauptverfasser: Flores, Hugo A., Fasce, Laura Alejandra, Riccardi, Carmen C., Ayude, María Alejandra
Format: Artikel
Sprache:eng
Schlagworte:
Ambient temperature
Analysis
Curing
Dimensional analysis
Filament winding
Glass
Glass fiber reinforced plastics
Glass reinforced plastics
Glass-epoxy composites
Heating
Industrial plants
Kinetics
Manufacturing engineering
Mathematical models
Numerical models
Pipe
Pipes
Properties
Temperature
Wall thickness
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Zusammenfassung:A dynamic one‐dimensional model is developed to simulate the novel internal heating curing process in the manufacturing of glass reinforced epoxy pipes by filament winding. The model combines the energy balance with a mechanistic kinetic approach and it is experimentally validated using industrial plant data. The efficiency of a specific curing cycle at different operating conditions is analyzed. In particular, the influence of ambient temperature, initial mandrel temperature, glass fiber content, initiator concentration and pipe wall thickness on temperature, and degree of cure profiles within the pipe wall thickness is discussed. This study attempts to dispel current industrial myths and to propose practical strategies to improve the internal heating curing process. POLYM. ENG. SCI., 55:2626–2635, 2015. © 2015 Society of Plastics Engineers
ISSN:0032-3888
1548-2634
DOI:10.1002/pen.24155