Recycled Poly(Ethylene Terephthalate)/Clay Nanocomposites: Rheology, Thermal and Mechanical Properties

Polymer nanocomposites containing recycled poly(ethylene terephthalate) (r-PET) as a polymer matrix and Cloisite ® 10A as a reinforcement were prepared through melt compounding. First, a masterbatch containing 20 wt% of Cloisite ® 10A clay was prepared and later diluted with neat r-PET to obtain nan...

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Published inJournal of polymers and the environment Vol. 27; no. 1; pp. 37 - 49
Main Authors Chowreddy, Ravindra Reddy, Nord-Varhaug, Katrin, Rapp, Florian
Format Journal Article
LanguageEnglish
Published New York Springer US 01.01.2019
Springer Nature B.V
Subjects
Chemistry
Chemistry and Materials Science
Clay
CRYSTALLIZATION
Degree of crystallinity
Environmental Chemistry
Environmental Engineering/Biotechnology
Ethylene
GLASS
Glass transition temperature
Impact strength
Industrial Chemistry/Chemical Engineering
Loss modulus
MATERIALS SCIENCE
MATRICES
Mechanical properties
Morphology
NANOCOMPOSITES
NANOSCIENCE AND NANOTECHNOLOGY
Original Paper
POLYETHYLENE TEREPHTHALATE
Polymer Sciences
Polymers
Rheological properties
Rheology
STORAGE
Storage modulus
Temperature
TENSILE PROPERTIES
Thermal stability
Thermodynamic properties
TRANSITION TEMPERATURE
Transition temperatures
VISCOSITY
Clay
10A
Rheology
Polyethylene terephthalate
Recycled
Cloisite
Polymer nanocomposites
Tensile properties
Online AccessGet full text

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Abstract Polymer nanocomposites containing recycled poly(ethylene terephthalate) (r-PET) as a polymer matrix and Cloisite ® 10A as a reinforcement were prepared through melt compounding. First, a masterbatch containing 20 wt% of Cloisite ® 10A clay was prepared and later diluted with neat r-PET to obtain nanocomposites containing 1, 2, 4 and 6 wt% of clay. The rheological, thermal, mechanical and morphological properties of the PET–clay nanocomposites were characterized. The complex viscosity of the nanocomposites gradually increases with increase in clay content. The storage modulus and loss modulus of nanocomposite containing 1 wt% of clay was similar to neat r-PET but increases with increase in clay content. Incorporation of clay into a r-PET slightly increases the crystallisation temperature and degree of crystallinity due to the heterogenous nucleating effect of clay. Thermal stability and glass transition temperature of nanocomposite containing Cloisite ® 10A clay at lower loadings was similar to r-PET and gradually decreases with increase in clay content. The tensile properties of PET–clay nanocomposites increased gradually with clay content. The impact strength of nanocomposites was not altered until 4 wt% and decreased at 6 wt%. Morphological investigations indicated homogeneous dispersion of clay in r-PET.
AbstractList Polymer nanocomposites containing recycled poly(ethylene terephthalate) (r-PET) as a polymer matrix and Cloisite® 10A as a reinforcement were prepared through melt compounding. First, a masterbatch containing 20 wt% of Cloisite® 10A clay was prepared and later diluted with neat r-PET to obtain nanocomposites containing 1, 2, 4 and 6 wt% of clay. The rheological, thermal, mechanical and morphological properties of the PET–clay nanocomposites were characterized. The complex viscosity of the nanocomposites gradually increases with increase in clay content. The storage modulus and loss modulus of nanocomposite containing 1 wt% of clay was similar to neat r-PET but increases with increase in clay content. Incorporation of clay into a r-PET slightly increases the crystallisation temperature and degree of crystallinity due to the heterogenous nucleating effect of clay. Thermal stability and glass transition temperature of nanocomposite containing Cloisite® 10A clay at lower loadings was similar to r-PET and gradually decreases with increase in clay content. The tensile properties of PET–clay nanocomposites increased gradually with clay content. The impact strength of nanocomposites was not altered until 4 wt% and decreased at 6 wt%. Morphological investigations indicated homogeneous dispersion of clay in r-PET.
Polymer nanocomposites containing recycled poly(ethylene terephthalate) (r-PET) as a polymer matrix and Cloisite ® 10A as a reinforcement were prepared through melt compounding. First, a masterbatch containing 20 wt% of Cloisite ® 10A clay was prepared and later diluted with neat r-PET to obtain nanocomposites containing 1, 2, 4 and 6 wt% of clay. The rheological, thermal, mechanical and morphological properties of the PET–clay nanocomposites were characterized. The complex viscosity of the nanocomposites gradually increases with increase in clay content. The storage modulus and loss modulus of nanocomposite containing 1 wt% of clay was similar to neat r-PET but increases with increase in clay content. Incorporation of clay into a r-PET slightly increases the crystallisation temperature and degree of crystallinity due to the heterogenous nucleating effect of clay. Thermal stability and glass transition temperature of nanocomposite containing Cloisite ® 10A clay at lower loadings was similar to r-PET and gradually decreases with increase in clay content. The tensile properties of PET–clay nanocomposites increased gradually with clay content. The impact strength of nanocomposites was not altered until 4 wt% and decreased at 6 wt%. Morphological investigations indicated homogeneous dispersion of clay in r-PET.
Polymer nanocomposites containing recycled poly(ethylene terephthalate) (r-PET) as a polymer matrix and Cloisite{sup ®} 10A as a reinforcement were prepared through melt compounding. First, a masterbatch containing 20 wt% of Cloisite{sup ®} 10A clay was prepared and later diluted with neat r-PET to obtain nanocomposites containing 1, 2, 4 and 6 wt% of clay. The rheological, thermal, mechanical and morphological properties of the PET–clay nanocomposites were characterized. The complex viscosity of the nanocomposites gradually increases with increase in clay content. The storage modulus and loss modulus of nanocomposite containing 1 wt% of clay was similar to neat r-PET but increases with increase in clay content. Incorporation of clay into a r-PET slightly increases the crystallisation temperature and degree of crystallinity due to the heterogenous nucleating effect of clay. Thermal stability and glass transition temperature of nanocomposite containing Cloisite{sup ®} 10A clay at lower loadings was similar to r-PET and gradually decreases with increase in clay content. The tensile properties of PET–clay nanocomposites increased gradually with clay content. The impact strength of nanocomposites was not altered until 4 wt% and decreased at 6 wt%. Morphological investigations indicated homogeneous dispersion of clay in r-PET.
Author Nord-Varhaug, Katrin
Chowreddy, Ravindra Reddy
Rapp, Florian
Author_xml – sequence: 1
  givenname: Ravindra Reddy
  orcidid: 0000-0001-9164-5530
  surname: Chowreddy
  fullname: Chowreddy, Ravindra Reddy
  email: ravindra.chowreddy@norner.no
  organization: Norner Research AS
– sequence: 2
  givenname: Katrin
  surname: Nord-Varhaug
  fullname: Nord-Varhaug, Katrin
  organization: Norner Research AS
– sequence: 3
  givenname: Florian
  surname: Rapp
  fullname: Rapp, Florian
  organization: Fraunhofer Institute for Chemical Technology ICT
BackLink https://www.osti.gov/biblio/22950464$$D View this record in Osti.gov
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Journal of Polymers and the Environment is a copyright of Springer, (2018). All Rights Reserved.
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Issue 1
Keywords Clay
10A
Rheology
Polyethylene terephthalate
Recycled
Cloisite
Polymer nanocomposites
Tensile properties
Language English
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PublicationSubtitle formerly: `Journal of Environmental Polymer Degradation
PublicationTitle Journal of polymers and the environment
PublicationTitleAbbrev J Polym Environ
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Snippet Polymer nanocomposites containing recycled poly(ethylene terephthalate) (r-PET) as a polymer matrix and Cloisite ® 10A as a reinforcement were prepared through...
Polymer nanocomposites containing recycled poly(ethylene terephthalate) (r-PET) as a polymer matrix and Cloisite® 10A as a reinforcement were prepared through...
Polymer nanocomposites containing recycled poly(ethylene terephthalate) (r-PET) as a polymer matrix and Cloisite{sup ®} 10A as a reinforcement were prepared...
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StartPage 37
SubjectTerms Chemistry
Chemistry and Materials Science
Clay
CRYSTALLIZATION
Degree of crystallinity
Environmental Chemistry
Environmental Engineering/Biotechnology
Ethylene
GLASS
Glass transition temperature
Impact strength
Industrial Chemistry/Chemical Engineering
Loss modulus
MATERIALS SCIENCE
MATRICES
Mechanical properties
Morphology
NANOCOMPOSITES
NANOSCIENCE AND NANOTECHNOLOGY
Original Paper
POLYETHYLENE TEREPHTHALATE
Polymer Sciences
Polymers
Rheological properties
Rheology
STORAGE
Storage modulus
Temperature
TENSILE PROPERTIES
Thermal stability
Thermodynamic properties
TRANSITION TEMPERATURE
Transition temperatures
VISCOSITY
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Title Recycled Poly(Ethylene Terephthalate)/Clay Nanocomposites: Rheology, Thermal and Mechanical Properties
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Volume 27
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