Composite banded core and non-banded shell transition patterns in stereocomplexed poly(lactide acid) induced by strongly interacting poly(p-vinyl phenol)

Composite banded core and non-banded shell transition patterns in stereocomplexed poly(lactide acid) induced by strongly interacting poly(p-vinyl phenol)

Banded cores and non-banded shells with transitional patterns in stereocomplexed poly(lactic acid) sc-PLA (PLLA : PDLA = 1 : 1) interacting with amorphous poly( p -vinyl phenol) (PVPh) (20–30 wt%) were investigated by using polarized optical (POM), atomic force (AFM), and scanning electron microscop...

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Veröffentlicht in:RSC advances 2014-01, Vol.4 (99), p.56294-56301
Hauptverfasser: Ni'mah, Hikmatun, Woo, Eamor M., Chang, Shih-Min
Format: Artikel
Sprache:eng
Schlagworte:
Atomic force microscopy
Birefringence
Blending
Crystals
Phenol
Polymer matrix composites
Scanning electron microscopy
Spherulites
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creator Ni'mah, Hikmatun
Woo, Eamor M.
Chang, Shih-Min
description Banded cores and non-banded shells with transitional patterns in stereocomplexed poly(lactic acid) sc-PLA (PLLA : PDLA = 1 : 1) interacting with amorphous poly( p -vinyl phenol) (PVPh) (20–30 wt%) were investigated by using polarized optical (POM), atomic force (AFM), and scanning electron microscopy (SEM). The central core of the spherulites is ring-banded, which transitions into non-banded patterns on the outer peripheral in sc-PLA/PVPh blends crystallized at T c = 160–180 °C. This composite crystal morphology is distinctly different from that of the neat sc-PLA, which is a Maltese-cross without any ring patterns in spherulites. The bands in the core region are also dramatically different from those bands with birefringence contrasts observed in classical ring-bands. The bands in the core show only crystal topology and no birefringence difference. Both regions of ring-banded and non-banded crystals are composed of edge-on lamellae, but the central-core lamellae undergo periodical waving up and down. The specific stage-wise and preferential interactions between PVPh and sc-PLA and glass substrate, which simultaneously occur during amorphous PVPh rejection and growth processes, were evaluated as some plausible kinetic reasons for the special composite crystal morphology of sc-PLA complex induced by blending with PVPh.
doi_str_mv 10.1039/C4RA09859E
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The specific stage-wise and preferential interactions between PVPh and sc-PLA and glass substrate, which simultaneously occur during amorphous PVPh rejection and growth processes, were evaluated as some plausible kinetic reasons for the special composite crystal morphology of sc-PLA complex induced by blending with PVPh.</abstract><doi>10.1039/C4RA09859E</doi><tpages>8</tpages></addata></record>
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source Royal Society Of Chemistry Journals 2008-
subjects Atomic force microscopy
Birefringence
Blending
Crystals
Phenol
Polymer matrix composites
Scanning electron microscopy
Spherulites
title Composite banded core and non-banded shell transition patterns in stereocomplexed poly(lactide acid) induced by strongly interacting poly(p-vinyl phenol)
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