Publikation: Isothermal step thickening in a long-spaced aliphatic polyester
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2020
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Polymer. Elsevier. 2020, 191, 122282. eISSN 0032-3861. Available under: doi: 10.1016/j.polymer.2020.122282
Zusammenfassung
Discontinuous lamellar thickening has been found at the isothermal crystallization temperatures of a long-spaced aliphatic polyester (PE-48,48) synthesized via polycondensation of the diol and diacid. The isothermal step thickening is characterized by a discrete increase in melting temperature with increasing crystallization time and an increase in heat of fusion of the high melting peak at the expense of the low melting peak. The increase in crystal thickness, quantified by SAXS, is consistent with a straightening of the chains at the basal surfaces of the lamellae to complete a full repeat of the crystalline layer. The increase in thickness and decrease in surface energy are associated with the sudden increase in crystal melting. The isothermal thickening follows a logarithmic dependence of time with a rate that increases with temperature. The thickening process is thermally activated and follows Arrhenius behavior with an activation energy of 238 ± 4 kJ/mol.
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Fachgebiet (DDC)
540 Chemie
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Crystallization; Isothermal thickening; Aliphatic polyester
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MARXSEN, Stephanie F., Manuel HÄUSSLER, Stefan MECKING, Rufina G. ALAMO, 2020. Isothermal step thickening in a long-spaced aliphatic polyester. In: Polymer. Elsevier. 2020, 191, 122282. eISSN 0032-3861. Available under: doi: 10.1016/j.polymer.2020.122282BibTex
@article{Marxsen2020-03Isoth-49261,
year={2020},
doi={10.1016/j.polymer.2020.122282},
title={Isothermal step thickening in a long-spaced aliphatic polyester},
volume={191},
journal={Polymer},
author={Marxsen, Stephanie F. and Häußler, Manuel and Mecking, Stefan and Alamo, Rufina G.},
note={Article Number: 122282}
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<dcterms:abstract xml:lang="eng">Discontinuous lamellar thickening has been found at the isothermal crystallization temperatures of a long-spaced aliphatic polyester (PE-48,48) synthesized via polycondensation of the diol and diacid. The isothermal step thickening is characterized by a discrete increase in melting temperature with increasing crystallization time and an increase in heat of fusion of the high melting peak at the expense of the low melting peak. The increase in crystal thickness, quantified by SAXS, is consistent with a straightening of the chains at the basal surfaces of the lamellae to complete a full repeat of the crystalline layer. The increase in thickness and decrease in surface energy are associated with the sudden increase in crystal melting. The isothermal thickening follows a logarithmic dependence of time with a rate that increases with temperature. The thickening process is thermally activated and follows Arrhenius behavior with an activation energy of 238 ± 4 kJ/mol.</dcterms:abstract>
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