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International Journal of Material Forming

Erschienen in:

22.10.2015 | Original Research

Shrinkage reduction and morphological characterization of PP reinforced with glass fiber and nanoclay using functionalized PP as compatibilizer

verfasst von: Arisbe Mayrarel Cadena-Perez, Isaura Yañez-Flores, Saul Sanchez-Valdes, Oliverio S. Rodriguez-Fernandez, Salvador Fernandez-Tavizon, Luis Francisco Ramos de Valle, Tomas Lozano-Ramirez, Juan Guillermo Martinez-Colunga, Jonam L. Sanchez-Cuevas

Erschienen in: International Journal of Material Forming | Ausgabe 2/2017

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Abstract

This work presents results of shrinkage and structure characteristics of reinforced PP using combinations of glass fiber and nanoclay with functionalized PP as compatibilizer during injection molding. Shrinkage, warpage and structure characteristics of clay-fiber reinforced nanocomposites using PP grafted with 2-[2- (Dimethylamino) ethoxy] ethanol (DMAE) to obtain PPgDMAE as compatibilizer, were analyzed. The glass fiber-nanoclay combinations decrease the PP shrinkage as well as the warpage tendency. Functionalized PP facilitates glass fiber and clay dispersion and intercalation. The crystallization temperature, Tc, increases slightly with respect to pure PP and the degree of crystallinity, Xc, was reduced with the clay content.

Vorheriger Artikel Evaluation of bending limit curves of aluminium alloy AA6014-T4 and dual phase steel DP600 at ambient temperature

Nächster Artikel An experimental and numerical investigation of the effect of macro-textured tool surfaces in hot stamping

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Titel: Shrinkage reduction and morphological characterization of PP reinforced with glass fiber and nanoclay using functionalized PP as compatibilizer
verfasst von: Arisbe Mayrarel Cadena-Perez
Isaura Yañez-Flores
Saul Sanchez-Valdes
Oliverio S. Rodriguez-Fernandez
Salvador Fernandez-Tavizon
Luis Francisco Ramos de Valle
Tomas Lozano-Ramirez
Juan Guillermo Martinez-Colunga
Jonam L. Sanchez-Cuevas
Publikationsdatum: 22.10.2015
Verlag: Springer Paris
Erschienen in: International Journal of Material Forming / Ausgabe 2/2017
Print ISSN: 1960-6206
Elektronische ISSN: 1960-6214
DOI: https://doi.org/10.1007/s12289-015-1272-5

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