Synergistic impact of hybrid carbon nanotube and graphene on crystallinity and thermo‐mechanical behavior of polymer blends

Polymer nanocomposites boast complex microstructures with instant control of final performance, including mechanical strength, thermal stability, and crystallinity. Although tremendous studies have been devoted to understanding the structure–property relation of polymer nanocomposites, the effect of...

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Published inPolymer composites Vol. 46; no. 2; pp. 1416 - 1426
Main Authors Rajabifar, Nariman, Ghanemi, Somaye, Rostami, Amir, Bahrami, Mostafa
Format Journal Article
LanguageEnglish
Published Hoboken, USA John Wiley & Sons, Inc 10.02.2025
Blackwell Publishing Ltd
Subjects
2D nanomaterials
carbon nanotube
Copolymers
Crystallinity
Crystallization
Ethylene
Graphene
Impact strength
Mechanical properties
Microstructure
Multi wall carbon nanotubes
Nanocomposites
Nanomaterials
Nucleation
Polymer blends
Polymers
polypropylene
Rheological properties
Rheology
structure–property relation
Synergistic effect
Tensile strength
thermal behavior
Thermal stability
Thermal transformations
Thermomechanical properties
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Abstract Polymer nanocomposites boast complex microstructures with instant control of final performance, including mechanical strength, thermal stability, and crystallinity. Although tremendous studies have been devoted to understanding the structure–property relation of polymer nanocomposites, the effect of simultaneous nanomaterial contents on binary polymers remains unclear. Here, we report how the microstructure and rheological characteristics are subject to change upon adding a hybrid multi‐walled carbon nanotube (CNT) and graphene nanoplatelet (GNP). We choose a refined binary system based on polypropylene (PP) as a commodity polymer with proven long‐standing applications, alongside ethylene‐butylene copolymer (EBC) with a random ethylene and butylene monomers orientation for better impact strength acquisition. Rheology and microscopy imaging support an adequate dispersion of both materials across the PP/EBC blend, similar to when a single‐particle nanocomposite is examined. Beyond investigating the heterogeneous nucleation role of CNT and GNP, the crystallinity rate and the half‐time parameter for completing the ordered transformation are calculated using the Avrami equations. The thermal stability as well as the mechanical properties of all nanocomposites reveal improved resilience under heat and external stress, leading to a rising trend in decomposition temperature, tensile strength, and modulus. Highlights Synergistic effect of hybrid CNT and GNP on the thermal stability of PP/EBC. The impact of hybrid CNT and GNP on crystallization kinetics. Improvement of the mechanical performance with CNT/GNP loading. Role of PP‐g‐MA on the dispersion and distribution of CNT and GNP. Synergistic effect of hybrid CNT and GNP in crystallinity and thermo‐mechanical properties
AbstractList Polymer nanocomposites boast complex microstructures with instant control of final performance, including mechanical strength, thermal stability, and crystallinity. Although tremendous studies have been devoted to understanding the structure–property relation of polymer nanocomposites, the effect of simultaneous nanomaterial contents on binary polymers remains unclear. Here, we report how the microstructure and rheological characteristics are subject to change upon adding a hybrid multi‐walled carbon nanotube (CNT) and graphene nanoplatelet (GNP). We choose a refined binary system based on polypropylene (PP) as a commodity polymer with proven long‐standing applications, alongside ethylene‐butylene copolymer (EBC) with a random ethylene and butylene monomers orientation for better impact strength acquisition. Rheology and microscopy imaging support an adequate dispersion of both materials across the PP/EBC blend, similar to when a single‐particle nanocomposite is examined. Beyond investigating the heterogeneous nucleation role of CNT and GNP, the crystallinity rate and the half‐time parameter for completing the ordered transformation are calculated using the Avrami equations. The thermal stability as well as the mechanical properties of all nanocomposites reveal improved resilience under heat and external stress, leading to a rising trend in decomposition temperature, tensile strength, and modulus.HighlightsSynergistic effect of hybrid CNT and GNP on the thermal stability of PP/EBC.The impact of hybrid CNT and GNP on crystallization kinetics.Improvement of the mechanical performance with CNT/GNP loading.Role of PP‐g‐MA on the dispersion and distribution of CNT and GNP.
Polymer nanocomposites boast complex microstructures with instant control of final performance, including mechanical strength, thermal stability, and crystallinity. Although tremendous studies have been devoted to understanding the structure–property relation of polymer nanocomposites, the effect of simultaneous nanomaterial contents on binary polymers remains unclear. Here, we report how the microstructure and rheological characteristics are subject to change upon adding a hybrid multi‐walled carbon nanotube (CNT) and graphene nanoplatelet (GNP). We choose a refined binary system based on polypropylene (PP) as a commodity polymer with proven long‐standing applications, alongside ethylene‐butylene copolymer (EBC) with a random ethylene and butylene monomers orientation for better impact strength acquisition. Rheology and microscopy imaging support an adequate dispersion of both materials across the PP/EBC blend, similar to when a single‐particle nanocomposite is examined. Beyond investigating the heterogeneous nucleation role of CNT and GNP, the crystallinity rate and the half‐time parameter for completing the ordered transformation are calculated using the Avrami equations. The thermal stability as well as the mechanical properties of all nanocomposites reveal improved resilience under heat and external stress, leading to a rising trend in decomposition temperature, tensile strength, and modulus. Highlights Synergistic effect of hybrid CNT and GNP on the thermal stability of PP/EBC. The impact of hybrid CNT and GNP on crystallization kinetics. Improvement of the mechanical performance with CNT/GNP loading. Role of PP‐g‐MA on the dispersion and distribution of CNT and GNP. Synergistic effect of hybrid CNT and GNP in crystallinity and thermo‐mechanical properties
Author Rajabifar, Nariman
Bahrami, Mostafa
Rostami, Amir
Ghanemi, Somaye
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CitedBy_id crossref_primary_10_1002_app_57046
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crossref_primary_10_3390_polym17030353
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Snippet Polymer nanocomposites boast complex microstructures with instant control of final performance, including mechanical strength, thermal stability, and...
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SubjectTerms 2D nanomaterials
carbon nanotube
Copolymers
Crystallinity
Crystallization
Ethylene
Graphene
Impact strength
Mechanical properties
Microstructure
Multi wall carbon nanotubes
Nanocomposites
Nanomaterials
Nucleation
Polymer blends
Polymers
polypropylene
Rheological properties
Rheology
structure–property relation
Synergistic effect
Tensile strength
thermal behavior
Thermal stability
Thermal transformations
Thermomechanical properties
Title Synergistic impact of hybrid carbon nanotube and graphene on crystallinity and thermo‐mechanical behavior of polymer blends
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fpc.29047
https://www.proquest.com/docview/3159184553
Volume 46
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