Graphene Layers Functionalized with A <i>Janus</i> Pyrrole-Based Compound in Natural Rubber Nanocomposites with Improved Ultimate and Fracture Properties

Graphene Layers Functionalized with A <i>Janus</i> Pyrrole-Based Compound in Natural Rubber Nanocomposites with Improved Ultimate and Fracture Properties

The ultimate properties and resistance to fracture of nanocomposites based on poly(1,4-<i>cis</i>-isoprene) from <i>Hevea Brasiliensis</i> (natural rubber, NR) and a high surface area nanosized graphite (HSAG) were improved by using HSAG functionalized with 2-(2,5-dimethyl-1H...

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Main Authors: Gea Prioglio, Silvia Agnelli, Lucia Conzatti, Winoj Balasooriya, Bernd Schrittesser, Maurizio Galimberti
Format: Article
Language:English
Published: MDPI AG 2020-04-01
Series:Polymers
Subjects:
natural rubber
high surface area graphite
functionalization
serinol pyrrole
ultimate properties
fracture resistance
Online Access:https://www.mdpi.com/2073-4360/12/4/944
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spelling doaj-12b3072a0e1341a9b7c9237b68bf041b2020-11-25T02:55:17ZengMDPI AGPolymers2073-43602020-04-011294494410.3390/polym12040944Graphene Layers Functionalized with A <i>Janus</i> Pyrrole-Based Compound in Natural Rubber Nanocomposites with Improved Ultimate and Fracture PropertiesGea Prioglio0Silvia Agnelli1Lucia Conzatti2Winoj Balasooriya3Bernd Schrittesser4Maurizio Galimberti5Department of Chemistry, Materials and Chemical Engineering Giulio Natta, Politecnico di Milano, Via Mancinelli 7, 20131 Milano (I), ItalyDepartment of Mechanical and Industrial Engineering, University of Brescia, Via Branze 38, 25123 Brescia (I), ItalyIstituto di Scienze e Tecnologie Chimiche “Giulio Natta” (SCITEC), CNR, Via De Marini 6, 16149 Genova (I), ItalyPolymer Competence Center Leoben GmbH Roseggerstrasse 12, A-8700 Leoben (A), AustriaPolymer Competence Center Leoben GmbH Roseggerstrasse 12, A-8700 Leoben (A), AustriaDepartment of Chemistry, Materials and Chemical Engineering Giulio Natta, Politecnico di Milano, Via Mancinelli 7, 20131 Milano (I), ItalyThe ultimate properties and resistance to fracture of nanocomposites based on poly(1,4-<i>cis</i>-isoprene) from <i>Hevea Brasiliensis</i> (natural rubber, NR) and a high surface area nanosized graphite (HSAG) were improved by using HSAG functionalized with 2-(2,5-dimethyl-1H-pyrrol-1-yl)propane-1,3-diol (serinol pyrrole) (HSAG-SP). The functionalization reaction occurred through a domino process, by simply mixing HSAG and serinol pyrrole and heating at 180 °C. The polarity of HSAG-SP allowed its dispersion in NR latex and the isolation of NR/HSAG-SP masterbatches via coagulation. Nanocomposites, based either on pristine HSAG or on HSAG-SP, were prepared through traditional melt blending and cured with a sulphur-based system. The samples containing HSAG-SP revealed ultimate dispersion of the graphitic filler with smaller aggregates and higher amounts of few layers stacks and isolated layers, as revealed by transmission electron microscopy. With HSAG-SP, better stress and elongation at break and higher fracture resistance were obtained. Indeed, in the case of HSAG-SP-based composites, fracture occurred at larger deformation and with higher values of load and, at the highest filler content (24 phr), deviation of fracture propagation was observed. These results have been obtained with a moderate functionalization of the graphene layers (about 5%) and normal lab facilities. This work reveals a simple and scalable way to prepare tougher NR-based nanocomposites and indicates that the dispersion of a graphitic material in a rubber matrix can be improved without using an extra-amount of mechanical energy, just by modifying the chemical nature of the graphitic material through a sustainable process, avoiding the traditional complex approach, which implies oxidation to graphite oxide and subsequent partial reduction.https://www.mdpi.com/2073-4360/12/4/944natural rubberhigh surface area graphitefunctionalizationserinol pyrroleultimate propertiesfracture resistance
collection DOAJ
language English
format Article
sources DOAJ
author Gea Prioglio
Silvia Agnelli
Lucia Conzatti
Winoj Balasooriya
Bernd Schrittesser
Maurizio Galimberti
spellingShingle Gea Prioglio
Silvia Agnelli
Lucia Conzatti
Winoj Balasooriya
Bernd Schrittesser
Maurizio Galimberti
Graphene Layers Functionalized with A <i>Janus</i> Pyrrole-Based Compound in Natural Rubber Nanocomposites with Improved Ultimate and Fracture Properties
Polymers
natural rubber
high surface area graphite
functionalization
serinol pyrrole
ultimate properties
fracture resistance
author_facet Gea Prioglio
Silvia Agnelli
Lucia Conzatti
Winoj Balasooriya
Bernd Schrittesser
Maurizio Galimberti
author_sort Gea Prioglio
title Graphene Layers Functionalized with A <i>Janus</i> Pyrrole-Based Compound in Natural Rubber Nanocomposites with Improved Ultimate and Fracture Properties
title_short Graphene Layers Functionalized with A <i>Janus</i> Pyrrole-Based Compound in Natural Rubber Nanocomposites with Improved Ultimate and Fracture Properties
title_full Graphene Layers Functionalized with A <i>Janus</i> Pyrrole-Based Compound in Natural Rubber Nanocomposites with Improved Ultimate and Fracture Properties
title_fullStr Graphene Layers Functionalized with A <i>Janus</i> Pyrrole-Based Compound in Natural Rubber Nanocomposites with Improved Ultimate and Fracture Properties
title_full_unstemmed Graphene Layers Functionalized with A <i>Janus</i> Pyrrole-Based Compound in Natural Rubber Nanocomposites with Improved Ultimate and Fracture Properties
title_sort graphene layers functionalized with a <i>janus</i> pyrrole-based compound in natural rubber nanocomposites with improved ultimate and fracture properties
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2020-04-01
description The ultimate properties and resistance to fracture of nanocomposites based on poly(1,4-<i>cis</i>-isoprene) from <i>Hevea Brasiliensis</i> (natural rubber, NR) and a high surface area nanosized graphite (HSAG) were improved by using HSAG functionalized with 2-(2,5-dimethyl-1H-pyrrol-1-yl)propane-1,3-diol (serinol pyrrole) (HSAG-SP). The functionalization reaction occurred through a domino process, by simply mixing HSAG and serinol pyrrole and heating at 180 °C. The polarity of HSAG-SP allowed its dispersion in NR latex and the isolation of NR/HSAG-SP masterbatches via coagulation. Nanocomposites, based either on pristine HSAG or on HSAG-SP, were prepared through traditional melt blending and cured with a sulphur-based system. The samples containing HSAG-SP revealed ultimate dispersion of the graphitic filler with smaller aggregates and higher amounts of few layers stacks and isolated layers, as revealed by transmission electron microscopy. With HSAG-SP, better stress and elongation at break and higher fracture resistance were obtained. Indeed, in the case of HSAG-SP-based composites, fracture occurred at larger deformation and with higher values of load and, at the highest filler content (24 phr), deviation of fracture propagation was observed. These results have been obtained with a moderate functionalization of the graphene layers (about 5%) and normal lab facilities. This work reveals a simple and scalable way to prepare tougher NR-based nanocomposites and indicates that the dispersion of a graphitic material in a rubber matrix can be improved without using an extra-amount of mechanical energy, just by modifying the chemical nature of the graphitic material through a sustainable process, avoiding the traditional complex approach, which implies oxidation to graphite oxide and subsequent partial reduction.
topic natural rubber
high surface area graphite
functionalization
serinol pyrrole
ultimate properties
fracture resistance
url https://www.mdpi.com/2073-4360/12/4/944
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