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Article Dans Une Revue AIP Conference Proceedings Année : 2015

Fundamental studies of interfacial rheology at multilayered model polymers for coextrusion process

Résumé

Fundamental studies have been devoted to the interfacial phenomena at multilayered systems based on two model compatible polymers of PVDF and PMMA with varying molar masses. Linear and nonlinear rheology are demonstrated to be sensitive to the presence of diffuse interphase triggered at polymer/polymer interface. Firstly, the interdiffusion kinetics as well as the interphase development have been investigated using SAOS measurements with results analyzed under Doi-Edwards theory. The PMMA/PVDF mixture, has been examined to own close component monomeric friction coefficients. Based on this physics, a new rheological model was developed to quantify the interdiffusion coefficients. Thereby, rheological and geometrical properties of the interphase have been quantified, as validated by SEM-EDX. Secondly, step strain, shear and uniaxial extension startup were carried out to investigate their sensitivity to the diffuse interphase. An original model was proposed for the stress relaxation of multilayer and that of the interphase. Entanglement lack and weak entanglement intensity at the interface/diffuse interphase make them to be subsequently readily to suffer from interfacial yielding under large deformations. Finally, the interphase development coupled to flow in coextrusion has been considered. Net result between negative effect of chain orientation and favorable effect of flow has been shown to broaden the interphase. Its presence during coextrusion process was demonstrated to significantly weaken the interfacial instabilities.

Dates et versions

hal-01154777 , version 1 (23-05-2015)

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Huagui Zhang, Khalid Lamnawar, Abderrahim Maazouz. Fundamental studies of interfacial rheology at multilayered model polymers for coextrusion process. AIP Conference Proceedings, 2015, 1664, pp.100008. ⟨10.1063/1.4918475⟩. ⟨hal-01154777⟩
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