Interactive effects between carbon allotrope fillers on the mechanical reinforcement of polyisoprene based nanocomposites

Interactive effects between carbon allotrope fillers on the mechanical reinforcement of polyisoprene based nanocomposites

Interactive effects of carbon allotropes on the mechanical reinforcement of polymer nanocomposites were investigated. Carbon nanotubes (CNT) and nano-graphite with high shape anisotropy (nanoG) were melt blended with poly(1,4-cis-isoprene), as the only fillers or in combination with carbon black (CB...

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Main Authors: M. Galimberti, S. Agnelli, V. Cipolletti, S. Musto, M. Coombs, L. Conzatti, S. Pandini, T. Ricco
Format: Article
Language:English
Published: Budapest University of Technology 2014-06-01
Series:eXPRESS Polymer Letters
Subjects:
Rubber
Carbon nanotubes
Nanographite
Carbon black
Interfacial area
Online Access:http://www.expresspolymlett.com/letolt.php?file=EPL-0005015&mi=cd
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spelling doaj-f2b4384314d84c4ea267c77ac0613a9b2020-11-24T23:52:32ZengBudapest University of Technology eXPRESS Polymer Letters1788-618X2014-06-018643644910.3144/expresspolymlett.2014.47Interactive effects between carbon allotrope fillers on the mechanical reinforcement of polyisoprene based nanocompositesM. GalimbertiS. AgnelliV. CipollettiS. MustoM. CoombsL. ConzattiS. PandiniT. RiccoInteractive effects of carbon allotropes on the mechanical reinforcement of polymer nanocomposites were investigated. Carbon nanotubes (CNT) and nano-graphite with high shape anisotropy (nanoG) were melt blended with poly(1,4-cis-isoprene), as the only fillers or in combination with carbon black (CB), measuring the shear modulus at low strain amplitudes for peroxide crosslinked composites. The nanofiller was found to increase the low amplitude storage modulus of the matrix, with or without CB, by a factor depending on nanofiller type and content. This factor, fingerprint of the nanofiller, was higher for CNT than for nanoG. The filler-polymer interfacial area was able to correlate modulus data of composites with CNT, CB and with the hybrid filler system, leading to the construction of a common master curve.http://www.expresspolymlett.com/letolt.php?file=EPL-0005015&mi=cdRubberCarbon nanotubesNanographiteCarbon blackInterfacial area
collection DOAJ
language English
format Article
sources DOAJ
author M. Galimberti
S. Agnelli
V. Cipolletti
S. Musto
M. Coombs
L. Conzatti
S. Pandini
T. Ricco
spellingShingle M. Galimberti
S. Agnelli
V. Cipolletti
S. Musto
M. Coombs
L. Conzatti
S. Pandini
T. Ricco
Interactive effects between carbon allotrope fillers on the mechanical reinforcement of polyisoprene based nanocomposites
eXPRESS Polymer Letters
Rubber
Carbon nanotubes
Nanographite
Carbon black
Interfacial area
author_facet M. Galimberti
S. Agnelli
V. Cipolletti
S. Musto
M. Coombs
L. Conzatti
S. Pandini
T. Ricco
author_sort M. Galimberti
title Interactive effects between carbon allotrope fillers on the mechanical reinforcement of polyisoprene based nanocomposites
title_short Interactive effects between carbon allotrope fillers on the mechanical reinforcement of polyisoprene based nanocomposites
title_full Interactive effects between carbon allotrope fillers on the mechanical reinforcement of polyisoprene based nanocomposites
title_fullStr Interactive effects between carbon allotrope fillers on the mechanical reinforcement of polyisoprene based nanocomposites
title_full_unstemmed Interactive effects between carbon allotrope fillers on the mechanical reinforcement of polyisoprene based nanocomposites
title_sort interactive effects between carbon allotrope fillers on the mechanical reinforcement of polyisoprene based nanocomposites
publisher Budapest University of Technology
series eXPRESS Polymer Letters
issn 1788-618X
publishDate 2014-06-01
description Interactive effects of carbon allotropes on the mechanical reinforcement of polymer nanocomposites were investigated. Carbon nanotubes (CNT) and nano-graphite with high shape anisotropy (nanoG) were melt blended with poly(1,4-cis-isoprene), as the only fillers or in combination with carbon black (CB), measuring the shear modulus at low strain amplitudes for peroxide crosslinked composites. The nanofiller was found to increase the low amplitude storage modulus of the matrix, with or without CB, by a factor depending on nanofiller type and content. This factor, fingerprint of the nanofiller, was higher for CNT than for nanoG. The filler-polymer interfacial area was able to correlate modulus data of composites with CNT, CB and with the hybrid filler system, leading to the construction of a common master curve.
topic Rubber
Carbon nanotubes
Nanographite
Carbon black
Interfacial area
url http://www.expresspolymlett.com/letolt.php?file=EPL-0005015&mi=cd
work_keys_str_mv AT mgalimberti interactiveeffectsbetweencarbonallotropefillersonthemechanicalreinforcementofpolyisoprenebasednanocomposites
AT sagnelli interactiveeffectsbetweencarbonallotropefillersonthemechanicalreinforcementofpolyisoprenebasednanocomposites
AT vcipolletti interactiveeffectsbetweencarbonallotropefillersonthemechanicalreinforcementofpolyisoprenebasednanocomposites
AT smusto interactiveeffectsbetweencarbonallotropefillersonthemechanicalreinforcementofpolyisoprenebasednanocomposites
AT mcoombs interactiveeffectsbetweencarbonallotropefillersonthemechanicalreinforcementofpolyisoprenebasednanocomposites
AT lconzatti interactiveeffectsbetweencarbonallotropefillersonthemechanicalreinforcementofpolyisoprenebasednanocomposites
AT spandini interactiveeffectsbetweencarbonallotropefillersonthemechanicalreinforcementofpolyisoprenebasednanocomposites
AT tricco interactiveeffectsbetweencarbonallotropefillersonthemechanicalreinforcementofpolyisoprenebasednanocomposites
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