Manufacturing of multilayer graphene oxide/poly(ethylene terephthalate) nanocomposites with tunable crystallinity, chain orientations and thermal transitions

Manufacturing of multilayer graphene oxide/poly(ethylene terephthalate) nanocomposites with tunable crystallinity, chain orientations and thermal transitions

Thermally exfoliated graphene oxide (TEGO) reinforced polyethylene terephthalate (PET) nanocomposites with controlled crystallinity, chain conformations and thermo-mechanical properties were produced with very low TEGO weight fractions by a twin-screw compounding extruder. Tensile modulus was found...

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Veröffentlicht in:Materials chemistry and physics 2016-06, Vol.176, p.58-67
Hauptverfasser: Seyyed Monfared Zanjani, Jamal, Saner Okan, Burcu, Menceloglu, Yusuf
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Sprache:eng
Schlagworte:
Chains
Composite materials
Crystallinity
Graphene
Mechanical properties
Molecular conformation
Multilayers
Nanocomposites
Oxides
Polyethylene terephthalates
Polymers
Thermal properties
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Saner Okan, Burcu
Menceloglu, Yusuf
description Thermally exfoliated graphene oxide (TEGO) reinforced polyethylene terephthalate (PET) nanocomposites with controlled crystallinity, chain conformations and thermo-mechanical properties were produced with very low TEGO weight fractions by a twin-screw compounding extruder. Tensile modulus was found to increase by 52% by the addition of 1 wt% TEGO. This significant increase in mechanical properties of PET nanocomposites was explained by well intercalation of PET chains through multi-layer graphene sheets and complete coverage of graphene surface by electrostatic interactions. An increase in the ratio of gauche and trans conformations in PET chains indicated that PET nanocomposites became more crystalline by increasing TEGO amount. Transmission electron microscopy observations showed the favorable interaction between TEGO sheets and PET matrix facilitating the dispersion and flattening of graphene sheets into polymeric matrix during elongation. The integration of 1 wt% TEGO sheets into PET matrix enhanced heat distortion temperature from 71 °C for neat specimen upto 91.6 °C at the constant stress of 0.45 MPa, and increased Vicat softening point from 76 °C upto 95 °C. Therefore, the failures of PET considerably reduced by improving short-term heat resistance and its softening properties between glass transition temperature and melting temperature by the incorporation of TEGO sheets. [Display omitted] •52% modulus improvement by the addition of 1 wt% graphene in PET.•Well-intercalation of PET chains through graphene sheets during compounding process.•Homogeneous graphene dispersion by favorable interactions between graphene and PET.•Enhancement in Heat distortion temperature and Vicat softening point of PET composite.•Considerable reduction in failures of PET by improving short-term heat resistance.
doi_str_mv 10.1016/j.matchemphys.2016.03.020
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Therefore, the failures of PET considerably reduced by improving short-term heat resistance and its softening properties between glass transition temperature and melting temperature by the incorporation of TEGO sheets. [Display omitted] •52% modulus improvement by the addition of 1 wt% graphene in PET.•Well-intercalation of PET chains through graphene sheets during compounding process.•Homogeneous graphene dispersion by favorable interactions between graphene and PET.•Enhancement in Heat distortion temperature and Vicat softening point of PET composite.•Considerable reduction in failures of PET by improving short-term heat resistance.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.matchemphys.2016.03.020</doi><tpages>10</tpages></addata></record>
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subjects Chains
Composite materials
Crystallinity
Graphene
Mechanical properties
Molecular conformation
Multilayers
Nanocomposites
Oxides
Polyethylene terephthalates
Polymers
Thermal properties
title Manufacturing of multilayer graphene oxide/poly(ethylene terephthalate) nanocomposites with tunable crystallinity, chain orientations and thermal transitions
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