Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/45396
Title: Modelling and simulation of the coalescence of two different polymer grains
Authors: Aid, Sara
Eddhahak, Anissa
Ortega, Zaida 
Froelich, Daniel
Tcharkhtchi, Abbas
UNESCO Clasification: 3313 Tecnología e ingeniería mecánicas
Issue Date: 2017
Journal: Proceedings of the World Congress on Mechanical, Chemical, and Material Engineering
Abstract: The present work focuses on the study of coalescence phenomenon of two different polymers the PolyVinyliDene Fluoride (PVDF), and Poly (methyl methacrylate) PMMA. Different blends of PVDF/PMMA polymers (0%, 10%, 30%, 70%, 90% and 100%) have been compounded using single-screw extrusion process. Then the blends have been characterized by physico-chemical, thermal and thermomechanical methods; their rheological characteristics have been studied at molten state. These tests showed clearly the miscibility of PMMA and PVDF [1]. The coalescence tests have been performed on the grains of the initial polymers using a polarized light optical microscope combined by a hot stage, video camera and video capture software. The curves of coalescence were plotted using an image software analyzer. Different tests were carried out on different pairs of PVDF/PVDF, PMMA/PMMA and PVDF/PMMA. The effect of different parameters like temperature, particle size on the rate of coalescence was investigated. In order to follow the effect of the neighboring grains on the kinetic of coalescence of two grains a third grain has been put in contact with these two grains in different positions. The results show that the coalescence phenomenon is very sensitive to the temperature and depends mostly on it. The second part of this study concerns the modeling of coalescence of the grains of different polymers. In previous works, our researcher group used the Bellehumeur’s model [2] for modelling the coalescence rate of two particles of the same polymer (PP, PVDF and PMMA) [3]. They studied the effect of viscosity, surface tension and relaxation time of the polymer on coalescence phenomenon. The novelty studied in this work is the modeling of the coalescence of two different polymers which exhibit different rheological and physicochemical properties. The aim is to modify the Bellehumeur model to the case of two different polymers. Thus, it is necessary to investigate the effect of viscosity, surface tension and relaxation of each polymer grain on kinetic model. The use of such approaches allowed us to transpose the Bellehumeur’s model to the case of two different grains by including corrector factors. In fact, when the polymers grains merge, an interphase is formed between them. The results indicate that the modified Bellehumeur model proposed presents a good correspondence with the experimental results obtained by microscopy. Finally, to support and deepen this study, we carried out simulation of this phenomenon using in one hand Fluent software and in the other hand a meshless methods for numerical simulation in mechanics which is called SPH (Smoothed Particle Hydrodynamics) [4].
URI: http://hdl.handle.net/10553/45396
ISBN: 9781927877326
DOI: 10.11159/iccpe17.111
Source: Proceedings of the World Congress on Mechanical, Chemical, and Material Engineering
Appears in Collections:Actas de congresos
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