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Using viscoelastic properties to quantitatively estimate the amount of modified poly(lactic acid) chains through reactive extrusion

In this study, the dynamic viscoelastic properties of three structurally modified poly(lactic acid) (PLA) samples processed through reactive extrusion (REX) were analyzed. While classical chromatographic and spectroscopic techniques exhibited limited sensitivity to the presence of topological changes, rheological measurements confirmed the presence of nonuniform branched macromolecules, holding sparsely long chain branches. According to the processing conditions used, the flow activation energy and the thermorheologically simple behavior remained roughly unaffected for PLA-REX containing an amount of modified chains up to 24%. Distinctly separated relaxation processes in a broader transition zone were observed in the complex viscosity function (|η∗(ω)|) of all PLA-REX samples. The "extended Carreau-Yassuda" model and an extension of the Havriliak-Negami model, proposed in this work, were used to capture the main characteristics of |η ∗ (ω)| experimental data. Both fitted models were inverted to molecular weight distribution (MWD) spectrum using the numerical inversion technique of Shaw and Tuminello, and these were compared with size exclusion chromatography MWDs. It was shown that the resolution of the predicted bimodal MWDs was enhanced when the model used to fit |η ∗ (ω)| data was exempted from the Cox-Merz rule and included a complex time dependence. Based on the MWDs deduced from solely melt measurements, a procedure was described to quantitatively estimate the amount of modified chains

The authors would like to acknowledge the financial support from the Spanish Ministry of Economy and Competitiveness through the Project MAT2013-40730-P. BASF is thanked for kindly supplying the reactive agent and Irganox 1010

American Institute of Physics (AIP)

Director: Ministerio de Economía y Competitividad (Espanya)
Autor: Cailloux, Jonathan
Santana, Orlando O.
Maspoch, Maria Ll.
Bou, Jordi J.
Carrasco, Félix
Resum: In this study, the dynamic viscoelastic properties of three structurally modified poly(lactic acid) (PLA) samples processed through reactive extrusion (REX) were analyzed. While classical chromatographic and spectroscopic techniques exhibited limited sensitivity to the presence of topological changes, rheological measurements confirmed the presence of nonuniform branched macromolecules, holding sparsely long chain branches. According to the processing conditions used, the flow activation energy and the thermorheologically simple behavior remained roughly unaffected for PLA-REX containing an amount of modified chains up to 24%. Distinctly separated relaxation processes in a broader transition zone were observed in the complex viscosity function (|η∗(ω)|) of all PLA-REX samples. The "extended Carreau-Yassuda" model and an extension of the Havriliak-Negami model, proposed in this work, were used to capture the main characteristics of |η ∗ (ω)| experimental data. Both fitted models were inverted to molecular weight distribution (MWD) spectrum using the numerical inversion technique of Shaw and Tuminello, and these were compared with size exclusion chromatography MWDs. It was shown that the resolution of the predicted bimodal MWDs was enhanced when the model used to fit |η ∗ (ω)| data was exempted from the Cox-Merz rule and included a complex time dependence. Based on the MWDs deduced from solely melt measurements, a procedure was described to quantitatively estimate the amount of modified chains
The authors would like to acknowledge the financial support from the Spanish Ministry of Economy and Competitiveness through the Project MAT2013-40730-P. BASF is thanked for kindly supplying the reactive agent and Irganox 1010
Accés al document: http://hdl.handle.net/2072/297709
Llenguatge: eng
Editor: American Institute of Physics (AIP)
Drets: Tots els drets reservats
Matèria: Reologia
Rheology
Polímers -- Reologia
Polymers -- Rheology
Viscoelasticitat
Viscoelasticity
Títol: Using viscoelastic properties to quantitatively estimate the amount of modified poly(lactic acid) chains through reactive extrusion
Tipus: info:eu-repo/semantics/article
Repositori: Recercat

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