Curing degree prediction for S-TBBS-DPG natural rubber by means of a simple numerical model accounting for reversion and linear interaction |
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| Institution: | 1. Politecnico di Milano, Piazza Leonardo da Vinci 32, 20133 Milan, Italy;2. Chem.Co Consultant, Via J.F.Kennedy 2, 45030 Occhiobello, RO, Italy;1. “Petru Poni” Institute of Macromolecular Chemistry, Aleea Gr. Ghica Voda 41A, 700487, Iasi, Romania;2. Centre of Polymer and Carbon Materials, Polish Academy of Sciences, M. Curie-Sklodowskiej 34, 41-819, Zabrze, Poland;1. Instituto de Desarrollo Tecnológico para la Industria Química (INTEC, UNL-CONICET), Güemes 3450, 3000 Santa Fe, Argentina;2. Facultad Regional Santa Fe, Universidad Tecnológica Nacional, Lavaise 610, 3000 Santa Fe, Argentina;3. Polymer Institute, Slovak Academy of Science, Dúbravská cesta 9, 84541 Bratislava, Slovakia;1. Key Laboratory of Symbolic Computation and Knowledge Engineering of Ministry of Education, Jilin University, Changchun 130012, China;2. College of Computer Science and Technology, Jilin University, Changchun 130012, China;1. Institute of Chemical Technology, Department of Physical Chemistry, Technická 5, 166 28 Prague 6, Czech Republic;2. Institute of Chemical Process Fundamentals, Czech Academy of Sciences, Rozvojová 135, 165 02 Prague 6, Czech Republic |
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| Abstract: | The paper presents a simple numerical model able to provide directly kinetic constants and reliable numerical rheometer curves for S-TBBS-DPG natural rubber. The approach is suitable to calculate the kinetic constants and maximum torque (MH) at any S-TBBS-DPG concentration, following a 3D mathematical interpolation/extrapolation procedure, when kinetic constants on few grid points of S-TBBS-DPG concentrations are available. In particular, the possibility to estimate with sufficient accuracy the behavior of natural rubber at any intermediate concentration of S-TBBS-DPG having engineering relevance has been proved, calibrating the model by means of simple closed form standard best fitting on few experimental data. The model used is a three kinetic parameters one, derived from the well known Han's and co-workers approach, where constants have been evaluated normalizing experimental rheometers curves following the commonly accepted Sun and Isayev method. The procedure has been validated against experimentally obtained rheometer curves by means of inverse analysis, exhibiting excellent prediction capabilities. The approach may be used for practical purposes in order to avoid expensive and cumbersome experimental investigations. |
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| Keywords: | Natural rubber NR Vulcanization with accelerated sulphur Experimental rheometer curves Numerical kinetic model Interpolation and extrapolation data |
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