[article]
| Titre : |
Composites of polypropylene with layered Mg-silsesquioxanes show an unusual combination of properties |
| Type de document : |
texte imprimé |
| Auteurs : |
Guruswamy Kumaraswamy, Auteur ; Yogesh S. Deshmukh, Auteur ; Vishal V. Agrawal, Auteur ; Anuya A. Nisal, Auteur |
| Année de publication : |
2008 |
| Article en page(s) : |
p. 3891–3899 |
| Note générale : |
Bibliogr. p. 3898-3899 |
| Langues : |
Anglais (eng) |
| Mots-clés : |
Magnesium silsesqiuoxanes Isotactic polypropylene Melt compounding |
| Résumé : |
We report the synthesis of vinyl modified magnesium silsesqiuoxanes (“vinyl clay”), and the formation of their composites with isotactic polypropylene (iPP) by melt compounding. Vinyl clay is a layered compound with a layer thickness of approximately 1 nm. Vinyl clay does not exfoliate in iPP; rather, it disperses to form a network that exhibits a characteristic low frequency solid-like plateau in the elastic modulus in dynamic melt rheological measurements. Strangely, vinyl clay also plasticizes iPP—there is a decrease in the high frequency complex viscosity. The decrease in the complex viscosity is higher at higher frequencies, suggesting the influence of slip at the iPP−vinyl clay interface. The combination of the low frequency elastic plateau and plasticization makes the vinyl clay composite significantly more shear thinning than the matrix iPP. In the solid state, vinyl clay−iPP composites exhibit increased tensile modulus (showing ≈50% increase for a 5% loading), but surprisingly, no corresponding decrease in the elongation at break. Thus, while microstructural characterization indicates that only a small fraction, if any, of the vinyl clay is exfoliated, the enhancement in mechanical properties is similar to that observed for iPP-exfoliated montmorillonite nanocomposites. Our compounding protocol is unable to effectively disperse the clay in the iPP at clay loadings greater than about 7.5%. Therefore, the low frequency plateau in the melt elastic modulus and the solid tensile modulus increase with clay loading until 7.5% but exhibit a nonmonotonic decrease at higher clay loadings. |
| En ligne : |
http://pubs.acs.org/doi/abs/10.1021/ie071658p |
in Industrial & engineering chemistry research > Vol. 47 n°11 (Juin 2008) . - p. 3891–3899
[article] Composites of polypropylene with layered Mg-silsesquioxanes show an unusual combination of properties [texte imprimé] / Guruswamy Kumaraswamy, Auteur ; Yogesh S. Deshmukh, Auteur ; Vishal V. Agrawal, Auteur ; Anuya A. Nisal, Auteur . - 2008 . - p. 3891–3899. Bibliogr. p. 3898-3899 Langues : Anglais ( eng) in Industrial & engineering chemistry research > Vol. 47 n°11 (Juin 2008) . - p. 3891–3899
| Mots-clés : |
Magnesium silsesqiuoxanes Isotactic polypropylene Melt compounding |
| Résumé : |
We report the synthesis of vinyl modified magnesium silsesqiuoxanes (“vinyl clay”), and the formation of their composites with isotactic polypropylene (iPP) by melt compounding. Vinyl clay is a layered compound with a layer thickness of approximately 1 nm. Vinyl clay does not exfoliate in iPP; rather, it disperses to form a network that exhibits a characteristic low frequency solid-like plateau in the elastic modulus in dynamic melt rheological measurements. Strangely, vinyl clay also plasticizes iPP—there is a decrease in the high frequency complex viscosity. The decrease in the complex viscosity is higher at higher frequencies, suggesting the influence of slip at the iPP−vinyl clay interface. The combination of the low frequency elastic plateau and plasticization makes the vinyl clay composite significantly more shear thinning than the matrix iPP. In the solid state, vinyl clay−iPP composites exhibit increased tensile modulus (showing ≈50% increase for a 5% loading), but surprisingly, no corresponding decrease in the elongation at break. Thus, while microstructural characterization indicates that only a small fraction, if any, of the vinyl clay is exfoliated, the enhancement in mechanical properties is similar to that observed for iPP-exfoliated montmorillonite nanocomposites. Our compounding protocol is unable to effectively disperse the clay in the iPP at clay loadings greater than about 7.5%. Therefore, the low frequency plateau in the melt elastic modulus and the solid tensile modulus increase with clay loading until 7.5% but exhibit a nonmonotonic decrease at higher clay loadings. |
| En ligne : |
http://pubs.acs.org/doi/abs/10.1021/ie071658p |
|
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