Caffeine antiplasticization of amorphous poly(ethylene terephthalate): Effects on gas transport, thermal, and mechanical properties

Authors
Burgess, Steven K.Lee, Jong SukMubarak, Christopher R.Kriegel, Robert M.Koros, William J.
Issue Date
2015-05-18
Publisher
ELSEVIER SCI LTD
Citation
POLYMER, v.65, pp.34 - 44
Abstract
This study investigates the phenomenon of caffeine antiplasticization of amorphous poly(ethylene terephthalate) (PET). Oxygen and carbon dioxide permeation measurements at 35 degrees C reveal significant barrier improvement (e.g., >3x for PET mixed with similar to 10.7 wt% caffeine) for all PET/caffeine samples studied. Penetrant solubility and diffusivity estimates are used to deconvolute the relative transport contributions to the overall barrier reduction determined via permeation testing. Density values provide a direct measure of the reduced free volume for the antiplasticized samples vs. neat PET, and provide a basis for understanding the barrier improvement. Further investigation via dynamic mechanical analysis of the sub-ambient beta relaxation reveals that the diffusion reductions for the antiplasticized samples originate from caffeine suppressing the phenyl ring flipping mechanism known to occur in glassy PET. The data reported in this paper suggest that antiplasticization of PET occurs via a combination of both "hole filling" and chain mobility restriction mechanisms, and that the relative mechanistic contributions to transport reduction depend largely on the penetrant solubility and diffusivity within the polymer matrix. (C) 2015 Elsevier Ltd. All rights reserved.
Keywords
SECONDARY RELAXATION PROCESSES; TEREPHTHALATE-ADDITIVE BLENDS; OXYGEN-BARRIER PROPERTIES; SOLID-STATE NMR; POLYETHYLENE TEREPHTHALATE; POLY(ETHYLENE FURANOATE); GLASS-TRANSITION; NONCOOPERATIVE RELAXATIONS; WATER SORPTION; POLYMERS; SECONDARY RELAXATION PROCESSES; TEREPHTHALATE-ADDITIVE BLENDS; OXYGEN-BARRIER PROPERTIES; SOLID-STATE NMR; POLYETHYLENE TEREPHTHALATE; POLY(ETHYLENE FURANOATE); GLASS-TRANSITION; NONCOOPERATIVE RELAXATIONS; WATER SORPTION; POLYMERS; Barrier; Transport; Oxygen
ISSN
0032-3861
URI
https://pubs.kist.re.kr/handle/201004/125433
DOI
10.1016/j.polymer.2015.03.051
Appears in Collections:
KIST Article > 2015
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