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DOI | 10.1007/S00289-014-1166-6 | ||||
Año | 2014 | ||||
Tipo | artículo de investigación |
Citas Totales
Autores Afiliación Chile
Instituciones Chile
% Participación
Internacional
Autores
Afiliación Extranjera
Instituciones
Extranjeras
We present an integral chemometric treatment for characterization and synthesis of low-density poly(ethylene)/organically modified montmorillonite nanocomposites using direct melt processing method, complementing design of experiment (DOE), response surface methodology (RSM) and partial least squares (PLS) regression. A central composite circumscribed DOE was used to study the influence of four processing parameters-concentration of clay (Clay%), concentration of compatibilizer (Comp%), mixing temperature (T (mix)) and mixing time (t (mix))-on six nanocomposites properties: interlayer distance, decomposition temperature, melting temperature, Young's modulus, loss modulus and storage modulus. PLS-regression was used to simultaneously correlate parameters and responses. RSM was used to explore interactions among parameters and predict nanocomposite properties on the experimental region. The six responses were simultaneously PLS-modeled with R (2) = 0.768 (p a parts per thousand currency sign 0.05) being Clay% and Comp% the most important parameters and t (mix) the least influential. Moreover, significant (p a parts per thousand currency sign 0.05) and complex interactions among Clay%, Comp% and t (mix) were found. A complementary interpretation of score and loading plots, coefficient plots, variable importance plots and response surface plots are explained to show how to find the optimal combination of processing parameters according the desired nanocomposite properties.
Ord. | Autor | Género | Institución - País |
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1 | Campos-Requena, Victor H. Campos | Hombre |
Universidad de Concepción - Chile
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2 | RIVAS-QUIROZ, BERNABE LUIS | - |
Universidad de Concepción - Chile
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3 | Perez-Rivera, Monica | Mujer |
Universidad de Concepción - Chile
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4 | Wilhelm, Manfred | Hombre |
Karlsruhe Inst Technol - Alemania
Karlsruhe Institute of Technology - Alemania Karlsruher Institut für Technologie - Alemania |
Fuente |
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CONICYT-Chile |
Fondef |
Comisión Nacional de Investigación Científica y Tecnológica |
Fondo de Fomento al Desarrollo Científico y Tecnológico |
REDOC (MINEDUC Project at U. de Concepcion) |
CONICYT REGIONAL CIPA (Centro de Investigacion de Polimeros Avanzados) |
Heinrich-Hertz-Gesellschaft |
Karlsruhe and Karlsruher Universitatsgesellschaft e.V. Karlsruhe |
Grant MECE2-Chile |
D-76131 Karlsruhe and Karlsruher Universitätsgesellschaft |
Agradecimiento |
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The authors thank FONDEF (Grant No. DI0i1234), REDOC (MINEDUC Project UCO1202 at U. de Concepcion) and CONICYT REGIONAL CIPA (Centro de Investigacion de Polimeros Avanzados) R08C1002. Victor H. Campos-Requena gratefully thanks CONICYT-Chile for its financial support through Doctoral Thesis Support Grant 24110010 and Doctoral Studies in Chile Support Grant 21090205; to Grant MECE2-Chile UCH0601 for Abroad Doctoral Stay financial support; to Heinrich-Hertz-Gesellschaft, D-76131 Karlsruhe and Karlsruher Universitatsgesellschaft e.V., D-76049 Karlsruhe for their financial support; and also thanks to Monica Uribe from GEA-UdeC. |
The authors thank FONDEF (Grant No. DI0i1234), REDOC (MINEDUC Project UCO1202 at U. de Concepción) and CONICYT REGIONAL CIPA (Centro de Investigación de Polímeros Avanzados) R08C1002. Víctor H. Campos-Requena gratefully thanks CONICYT-Chile for its financial support through Doctoral Thesis Support Grant 24110010 and Doctoral Studies in Chile Support Grant 21090205; to Grant MECE2-Chile UCH0601 for Abroad Doctoral Stay financial support; to Heinrich-Hertz-Gesellschaft, D-76131 Karlsruhe and Karlsruher Universitätsgesellschaft e.V., D-76049 Karlsruhe for their financial support; and also thanks to Mónica Uribe from GEA-UdeC. |