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    Methodology for Optimization of Polymer Blends Composition

    Alessandra Martins Coelho, Vania Vieira Estrela, Joaquim Teixeira de Assis, Gil de Carvalho, Joaquim Teixeira de Assis, Vania Vieira Estrela, Vânia Estrela, Vania Vieira Estrela, Vania Vieira Estrela, Vania Vieira Estrela, Vania Vieira Estrela, Alessandra Martins Coelho, Alessandra Martins Coelho, Alessandra Martins Coelho. Methodology for Optimization of Polymer Blends Composition. 2012. [doi]

    References

    • Computer Modelling for optimization polimeric blendsCarvalho, G.; Silva, M.P.R.; Machado, J.M.P.. In Proceedings of the 2003 Brazilian Meeting SBPMat. 2003:
    • Ihm, D.J. & White, J.L., (1996). Interfacial tension of polyethylene/polyethylene terephtalate with various compatibilizing agents. J. of Ap. Polymer Sc., vol. 60, pp. 1–7.
    • Atkinson, A.C. (2003) Nonconstant variance and the design of experiments for chemical kinetic models. S. P. Asprey and S. Macchietto, editors, Dynamic Model Development, volume 16. Elsevier.
    • ASTM D 638 (2010). Standard Test Method for Tensile Properties of Plastics, Annual book of American Society for Testing of Material (ASTM), U.S.A., Vol. 08.01.
    • Paul, D. R. & Bucknall, C. B. (Eds.) (2000). Polymer Blends Volume 1: Formulation, John Willey & Sons, New York.
    • Tang Q, Lau Yb, Hu S, Yan W, Yang Y, Chen T, (2010). Response surface methodology using Gaussian processes: towards optimizing the trans-stilbene epoxidation over Co2+-NaX catalysts, Chemical Engineering Journal, 156: 423-431.
    • Box, G.E.P. & Draper, N.R. (1987), Empirical model buiding and response surfaces. New York: J. Wiley, 669p.
    • Pang, Y. X., Jia, D. M., Hu, H. J., Houston, D. J. & Song, M., (2000) Polymer, 41: 357
    • Zhang, Y.; Edgar, T. F. (2008) PCA combined model-based design of experiments (DOE) criteria for di fferential and algebraic system parameter identification. Ind. Eng. Chem. Res. 2008 , 47, 7772 –7783.
    • Wessler, Katiusca. (2007). Systems of P (3HB) and P (3HB-co-3HV) with Poly-triol: Phase Behavior, Rheology, Mechanical Properties and Processability. Sistemas de P(3HB) e P(3HB-co-3HV) com Policaprolactona-Triol (in Portuguese), Dissertation. Center of Technological Sciences. State University of Santa Catarina.
    • Neseli, S.; Yaldiz, S. & Turkes, E. (2011). Optimization of tool geometry parameters for turning operations based on the response surface methodology. .Measurement 44 (2011) 580–87.
    • Franceschini, G.; Macchietto, S. Model-based design of experiments for parameter precision: state of the art. Chem. Eng. Sci. 2008 , 63, 4846 –4872.
    • Zullo, L. (1991) Computer aided design of experiments. An engineering approach, PhD thesis, University of London.
    • Montgomery, D. C. (2005). Design and Analysis of Experiments: Response surface method and designs. New Jersey: John Wiley and Sons, Inc.
    • Espie, D.M. & Macchietto, S. (1989) The optimal design of dynamic experiments. AIChE Journal, 35:223−229.
    • Myers, R. H. & Montgomery, D. C. (1995) Response Surface Methodology, Wiley.
    • Rossini, E. L. (2005). Obtenção da blenda polimérica PET/PP/PE/EVA a partir de “garrafas PET” e estudo das modificações provocadas pela radiação ionizante. Tese de Doutorado. Instituto de Pesquisas Energéticas e Nucleares.
    • Pawlak, A., Morawiec, J., Pazzagli, F., Pracella, M. & Galeski, A. (2002). Recycling of postconsumer poly(ethylene terephthalate) and high density polyethylene by compatibilized blending. J. Appl. Polym. Sci., 86:1,473-1,485.
    • Asprey, S.P. & Macchietto, S. (2002) Designing robust optimal dynamic experiments. Journal of Process Control, 12:545−556.
    • Zhang, Y. & Edgar, T.F. (2007) Online batch process monitoring using modified dynamic batch PCA. ACC, pages 2551-2556, NY, IEEE.
    • Marconcini, J. M. & Ruvolo Filho, A. (2006). Thermodynamic analysis of mechanical behavior in the elastic region of blends of poly (ethylene terephthalate) recycled and recycled polyolefins. (in Portuguese). Polímeros vol.16 no.4 São Carlos Oct./Dec.
    • Asprey, S.P. & Macchietto, S. (2000) Statistical tools for optimal dynamic model building. Computers and Chemical Engineering, 24:1261-1267.
    • Malinov, S. & Sha, W., (2003). Software products for modelling and simulation in materials science. In Proceedings of the Symposium on Software Development for Process and Materials Design, volume 28, Issue 2, pp. 179–198.
    • Hage, E. & Pessan, L. A., (2001). Improvement in plastics technology. Module 7: polymeric blends. (in Portuguese). ABPol, São Carlos.
    • Silva, W. S. (2011). Modeling and optimization of ternary of polypropylene (PP), ethylenepropylene-diene monomer (EPDM) and scrap rubber tire (SRT). (in Portuguese). Master’s Thesis. Polytechnic Institut of Rio de Janeiro State University.

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