The aliphatic counterpart of PET, PPT and PBT aromatic polyesters: effect of the molecular structure on thermo-mechanical properties

The aliphatic counterpart of PET, PPT and PBT aromatic polyesters: effect of the molecular structure on thermo-mechanical properties

The aliphatic counterparts of the most used aromatic polyesters (PET, PPT, and PBT) have been synthesized by a two-stage polycondensation process, starting from dimethyl 1,4-cyclohexane dicarboxylate and different diols. The fully aliphatic polyesters are characterized by two cis/trans isomeric rati...

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Main Authors: Morgane Albanese, Justine Boyenval, Paola Marchese, Simone Sullalti, Annamaria Celli
Format: Article
Language:English
Published: AIMS Press 2016-02-01
Series:AIMS Molecular Science
Subjects:
Polyesters
1,4-cyclohexylene ring
cis/trans ratio
thermal properties
crystallization kinetics
Online Access:http://www.aimspress.com/Molecular/article/632/fulltext.html
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spelling doaj-35ce10bbff8946adba728c58b8cf5d242020-11-25T01:18:00ZengAIMS PressAIMS Molecular Science2372-03012016-02-0131325110.3934/molsci.2016.1.32molsci-03-00032The aliphatic counterpart of PET, PPT and PBT aromatic polyesters: effect of the molecular structure on thermo-mechanical propertiesMorgane Albanese0Justine Boyenval1Paola Marchese2Simone Sullalti3Annamaria Celli4Department of Civil, Chemical, Environmental and Materials Engineering, University of Bologna, Via Terracini 28, BO 40131, ItalyDepartment of Civil, Chemical, Environmental and Materials Engineering, University of Bologna, Via Terracini 28, BO 40131, ItalyDepartment of Civil, Chemical, Environmental and Materials Engineering, University of Bologna, Via Terracini 28, BO 40131, ItalyDepartment of Civil, Chemical, Environmental and Materials Engineering, University of Bologna, Via Terracini 28, BO 40131, ItalyDepartment of Civil, Chemical, Environmental and Materials Engineering, University of Bologna, Via Terracini 28, BO 40131, ItalyThe aliphatic counterparts of the most used aromatic polyesters (PET, PPT, and PBT) have been synthesized by a two-stage polycondensation process, starting from dimethyl 1,4-cyclohexane dicarboxylate and different diols. The fully aliphatic polyesters are characterized by two cis/trans isomeric ratios (50 and 90 mol%) of the 1,4-cycloaliphatic rings. According to the cis/trans content, the properties of the materials notably change. Indeed, polymers rich in trans isomer are semicrystalline, whereas polymers with low trans content are fully amorphous, due to the presence of kinks along the chain. Trans isomer is characterized by higher rigidity than the cis one and the corresponding polymers have high glass transition temperatures. Moreover, the length of the methylene sequences in the diol has a notable influence on the final thermal and mechanical properties. Therefore, tunable properties can be easily obtained. This characteristic, in association with good mechanical performances, potential sustainability of the monomers and biodegradability, makes these aliphatic polyesters an interesting class of polyesters for some specific applications.http://www.aimspress.com/Molecular/article/632/fulltext.htmlPolyesters1,4-cyclohexylene ringcis/trans ratiothermal propertiescrystallization kinetics
collection DOAJ
language English
format Article
sources DOAJ
author Morgane Albanese
Justine Boyenval
Paola Marchese
Simone Sullalti
Annamaria Celli
spellingShingle Morgane Albanese
Justine Boyenval
Paola Marchese
Simone Sullalti
Annamaria Celli
The aliphatic counterpart of PET, PPT and PBT aromatic polyesters: effect of the molecular structure on thermo-mechanical properties
AIMS Molecular Science
Polyesters
1,4-cyclohexylene ring
cis/trans ratio
thermal properties
crystallization kinetics
author_facet Morgane Albanese
Justine Boyenval
Paola Marchese
Simone Sullalti
Annamaria Celli
author_sort Morgane Albanese
title The aliphatic counterpart of PET, PPT and PBT aromatic polyesters: effect of the molecular structure on thermo-mechanical properties
title_short The aliphatic counterpart of PET, PPT and PBT aromatic polyesters: effect of the molecular structure on thermo-mechanical properties
title_full The aliphatic counterpart of PET, PPT and PBT aromatic polyesters: effect of the molecular structure on thermo-mechanical properties
title_fullStr The aliphatic counterpart of PET, PPT and PBT aromatic polyesters: effect of the molecular structure on thermo-mechanical properties
title_full_unstemmed The aliphatic counterpart of PET, PPT and PBT aromatic polyesters: effect of the molecular structure on thermo-mechanical properties
title_sort aliphatic counterpart of pet, ppt and pbt aromatic polyesters: effect of the molecular structure on thermo-mechanical properties
publisher AIMS Press
series AIMS Molecular Science
issn 2372-0301
publishDate 2016-02-01
description The aliphatic counterparts of the most used aromatic polyesters (PET, PPT, and PBT) have been synthesized by a two-stage polycondensation process, starting from dimethyl 1,4-cyclohexane dicarboxylate and different diols. The fully aliphatic polyesters are characterized by two cis/trans isomeric ratios (50 and 90 mol%) of the 1,4-cycloaliphatic rings. According to the cis/trans content, the properties of the materials notably change. Indeed, polymers rich in trans isomer are semicrystalline, whereas polymers with low trans content are fully amorphous, due to the presence of kinks along the chain. Trans isomer is characterized by higher rigidity than the cis one and the corresponding polymers have high glass transition temperatures. Moreover, the length of the methylene sequences in the diol has a notable influence on the final thermal and mechanical properties. Therefore, tunable properties can be easily obtained. This characteristic, in association with good mechanical performances, potential sustainability of the monomers and biodegradability, makes these aliphatic polyesters an interesting class of polyesters for some specific applications.
topic Polyesters
1,4-cyclohexylene ring
cis/trans ratio
thermal properties
crystallization kinetics
url http://www.aimspress.com/Molecular/article/632/fulltext.html
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