Structure and mechanical properties of poly( l-lactide)/layered silicate nanocomposites

Poly(ε-caprolactone) (PCL) masterbatches with the intercalated and the exfoliated morphology were prepared by ring opening polymerization of ε-caprolactone in the presence of organomodified montmorillonite (MMT) Cloisite 30B. Poly( l-lactide) (PLLA) nanocomposites with Cloisite 30B or PCL masterbatc...

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Veröffentlicht in:	European polymer journal 2006-04, Vol.42 (4), p.888-899
Hauptverfasser:	Kubies, Dana, Ščudla, Jaroslav, Puffr, Rudolf, Sikora, Antonín, Baldrian, Josef, Kovářová, Jana, Šlouf, Miroslav, Rypáček, František
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Schlagworte:	Applied sciences Composites Exact sciences and technology Forms of application and semi-finished materials Mechanical properties Montmorillonite Nanocomposite PCL PLLA Polymer industry, paints, wood Technology of polymers
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container_title	European polymer journal
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creator	Kubies, Dana Ščudla, Jaroslav Puffr, Rudolf Sikora, Antonín Baldrian, Josef Kovářová, Jana Šlouf, Miroslav Rypáček, František
description	Poly(ε-caprolactone) (PCL) masterbatches with the intercalated and the exfoliated morphology were prepared by ring opening polymerization of ε-caprolactone in the presence of organomodified montmorillonite (MMT) Cloisite 30B. Poly( l-lactide) (PLLA) nanocomposites with Cloisite 30B or PCL masterbatches were prepared by melt blending. The effects of the silicate type, MMT content and the nanocomposite morphology on thermal and mechanical properties of PLLA nanocomposites were examined. The montmorillonite particles in PLLA/Cloisite 30B and PLLA/intercalated masterbatch nanocomposites were intercalated. In contrary to expectations, the exfoliated silicate layers of exfoliated masterbatch were not transferred into the PLLA matrix. Due to a low miscibility of PCL and PLLA, MMT remained in the phase-separated masterbatch domains. The stress–strain characteristics of PLLA nanocomposites, Young modulus E, yield stress σ y and yield strain ε y, decreased with increasing MMT concentration, which is associated with the increase in PCL content. The expected stiffening effect of MMT was low due to a low aspect ratio of its particles and was obscured by both plastifying effects of PCL and low PLLA crystallinity. Interestingly, in contrast to the neat PLLA, ductility was enhanced in all PLLA/Cloisite 30B materials and in PLLA/masterbatch nanocomposites with low MMT concentrations.
doi_str_mv	10.1016/j.eurpolymj.2005.10.007
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Poly( l-lactide) (PLLA) nanocomposites with Cloisite 30B or PCL masterbatches were prepared by melt blending. The effects of the silicate type, MMT content and the nanocomposite morphology on thermal and mechanical properties of PLLA nanocomposites were examined. The montmorillonite particles in PLLA/Cloisite 30B and PLLA/intercalated masterbatch nanocomposites were intercalated. In contrary to expectations, the exfoliated silicate layers of exfoliated masterbatch were not transferred into the PLLA matrix. Due to a low miscibility of PCL and PLLA, MMT remained in the phase-separated masterbatch domains. The stress–strain characteristics of PLLA nanocomposites, Young modulus E, yield stress σ y and yield strain ε y, decreased with increasing MMT concentration, which is associated with the increase in PCL content. The expected stiffening effect of MMT was low due to a low aspect ratio of its particles and was obscured by both plastifying effects of PCL and low PLLA crystallinity. 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Poly( l-lactide) (PLLA) nanocomposites with Cloisite 30B or PCL masterbatches were prepared by melt blending. The effects of the silicate type, MMT content and the nanocomposite morphology on thermal and mechanical properties of PLLA nanocomposites were examined. The montmorillonite particles in PLLA/Cloisite 30B and PLLA/intercalated masterbatch nanocomposites were intercalated. In contrary to expectations, the exfoliated silicate layers of exfoliated masterbatch were not transferred into the PLLA matrix. Due to a low miscibility of PCL and PLLA, MMT remained in the phase-separated masterbatch domains. The stress–strain characteristics of PLLA nanocomposites, Young modulus E, yield stress σ y and yield strain ε y, decreased with increasing MMT concentration, which is associated with the increase in PCL content. The expected stiffening effect of MMT was low due to a low aspect ratio of its particles and was obscured by both plastifying effects of PCL and low PLLA crystallinity. 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subjects	Applied sciences Composites Exact sciences and technology Forms of application and semi-finished materials Mechanical properties Montmorillonite Nanocomposite PCL PLLA Polymer industry, paints, wood Technology of polymers
title	Structure and mechanical properties of poly( l-lactide)/layered silicate nanocomposites
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