NR/SBR composites reinforced with organically functionalized MWCNTs: simultaneous improvement of tensile strength and elongation and enhanced thermal stability

Butyl acrylate-α-methyl methacrylate-glycidyl methacrylate (BA-MMA-GMA) terpolymer was successfully grafted onto carbon nanotubes (CNTs) via a facile grafting functionalization approach, affording an organically functionalized multiwalled CNTs (O-MWCNTs), which show improved mechanical and thermal p...
Ausführliche Beschreibung

Gespeichert in:

Autor*in:	Li, Minghua Tu, Weixiao Chen, Xinfeng Wang, Huihui Chen, Jinyang

Format:	E-Artikel

Erschienen:	De Gruyter ; 2016

Schlagwörter:	carbon nanotubes interfacial interaction rubber matrix

Umfang:	6

Reproduktion:	Walter de Gruyter Online Zeitschriften
Übergeordnetes Werk:	Enthalten in: Journal of polymer engineering - Berlin : de Gruyter, 1984, 36(2016), 8 vom: 20. Jan., Seite 813-818
Übergeordnetes Werk:	volume:36 ; year:2016 ; number:8 ; day:20 ; month:01 ; pages:813-818 ; extent:6

Links:	Link aufrufen

DOI / URN:	10.1515/polyeng-2015-0136

Katalog-ID:	NLEJ248140523

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520			\|a Butyl acrylate-α-methyl methacrylate-glycidyl methacrylate (BA-MMA-GMA) terpolymer was successfully grafted onto carbon nanotubes (CNTs) via a facile grafting functionalization approach, affording an organically functionalized multiwalled CNTs (O-MWCNTs), which show improved mechanical and thermal properties in natural rubber/styrene-butadiene rubber (NR/SBR) composites. Under optimized conditions, the result of elongation at break of NR/SBR composites combined with 1.5 parts per hundred rubber (phr) O-MWCNTs is 450% compared to 376% of pristine NR/SBR composites, which is proportional to tensile strength due to the mixed O-MWCNTs in the rubber matrix. Transmission electron microscopy study shows that O-MWCNTs (1.5 phr) can disperse uniformly in NR/SBR/O-MWCNT composites. A scanning electron microscopy study on the fractured surface morphology of the optimized composites reveals that a BA-MMA-GMA terpolymer can interact with the rubber matrix strongly. The decreased height of the maximum tanδ peak shows that O-MWCNTs can reduce the heat buildup and damping capability of NR/SBR/O-MWCNT composites. The largest enhancement observed in the thermal degradation curves of composites is, for the first time, about 70°C, which can be attributed to enhanced interfacial interaction between MWCNTs and the rubber matrix.
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allfields	10.1515/polyeng-2015-0136 doi articles2015-2020.pp (DE-627)NLEJ248140523 DE-627 ger DE-627 rakwb NR/SBR composites reinforced with organically functionalized MWCNTs: simultaneous improvement of tensile strength and elongation and enhanced thermal stability De Gruyter 2016 6 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Butyl acrylate-α-methyl methacrylate-glycidyl methacrylate (BA-MMA-GMA) terpolymer was successfully grafted onto carbon nanotubes (CNTs) via a facile grafting functionalization approach, affording an organically functionalized multiwalled CNTs (O-MWCNTs), which show improved mechanical and thermal properties in natural rubber/styrene-butadiene rubber (NR/SBR) composites. Under optimized conditions, the result of elongation at break of NR/SBR composites combined with 1.5 parts per hundred rubber (phr) O-MWCNTs is 450% compared to 376% of pristine NR/SBR composites, which is proportional to tensile strength due to the mixed O-MWCNTs in the rubber matrix. Transmission electron microscopy study shows that O-MWCNTs (1.5 phr) can disperse uniformly in NR/SBR/O-MWCNT composites. A scanning electron microscopy study on the fractured surface morphology of the optimized composites reveals that a BA-MMA-GMA terpolymer can interact with the rubber matrix strongly. The decreased height of the maximum tanδ peak shows that O-MWCNTs can reduce the heat buildup and damping capability of NR/SBR/O-MWCNT composites. The largest enhancement observed in the thermal degradation curves of composites is, for the first time, about 70°C, which can be attributed to enhanced interfacial interaction between MWCNTs and the rubber matrix. Walter de Gruyter Online Zeitschriften carbon nanotubes interfacial interaction rubber matrix Li, Minghua oth Tu, Weixiao oth Chen, Xinfeng oth Wang, Huihui oth Chen, Jinyang oth Enthalten in Journal of polymer engineering Berlin : de Gruyter, 1984 36(2016), 8 vom: 20. Jan., Seite 813-818 (DE-627)NLEJ248236601 (DE-600)2602430-5 2191-0340 nnns volume:36 year:2016 number:8 day:20 month:01 pages:813-818 extent:6 https://doi.org/10.1515/polyeng-2015-0136 Deutschlandweit zugänglich GBV_USEFLAG_U ZDB-1-DGR GBV_NL_ARTICLE AR 36 2016 8 20 1 813-818 6
spelling	10.1515/polyeng-2015-0136 doi articles2015-2020.pp (DE-627)NLEJ248140523 DE-627 ger DE-627 rakwb NR/SBR composites reinforced with organically functionalized MWCNTs: simultaneous improvement of tensile strength and elongation and enhanced thermal stability De Gruyter 2016 6 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Butyl acrylate-α-methyl methacrylate-glycidyl methacrylate (BA-MMA-GMA) terpolymer was successfully grafted onto carbon nanotubes (CNTs) via a facile grafting functionalization approach, affording an organically functionalized multiwalled CNTs (O-MWCNTs), which show improved mechanical and thermal properties in natural rubber/styrene-butadiene rubber (NR/SBR) composites. Under optimized conditions, the result of elongation at break of NR/SBR composites combined with 1.5 parts per hundred rubber (phr) O-MWCNTs is 450% compared to 376% of pristine NR/SBR composites, which is proportional to tensile strength due to the mixed O-MWCNTs in the rubber matrix. Transmission electron microscopy study shows that O-MWCNTs (1.5 phr) can disperse uniformly in NR/SBR/O-MWCNT composites. A scanning electron microscopy study on the fractured surface morphology of the optimized composites reveals that a BA-MMA-GMA terpolymer can interact with the rubber matrix strongly. The decreased height of the maximum tanδ peak shows that O-MWCNTs can reduce the heat buildup and damping capability of NR/SBR/O-MWCNT composites. The largest enhancement observed in the thermal degradation curves of composites is, for the first time, about 70°C, which can be attributed to enhanced interfacial interaction between MWCNTs and the rubber matrix. Walter de Gruyter Online Zeitschriften carbon nanotubes interfacial interaction rubber matrix Li, Minghua oth Tu, Weixiao oth Chen, Xinfeng oth Wang, Huihui oth Chen, Jinyang oth Enthalten in Journal of polymer engineering Berlin : de Gruyter, 1984 36(2016), 8 vom: 20. Jan., Seite 813-818 (DE-627)NLEJ248236601 (DE-600)2602430-5 2191-0340 nnns volume:36 year:2016 number:8 day:20 month:01 pages:813-818 extent:6 https://doi.org/10.1515/polyeng-2015-0136 Deutschlandweit zugänglich GBV_USEFLAG_U ZDB-1-DGR GBV_NL_ARTICLE AR 36 2016 8 20 1 813-818 6
allfields_unstemmed	10.1515/polyeng-2015-0136 doi articles2015-2020.pp (DE-627)NLEJ248140523 DE-627 ger DE-627 rakwb NR/SBR composites reinforced with organically functionalized MWCNTs: simultaneous improvement of tensile strength and elongation and enhanced thermal stability De Gruyter 2016 6 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Butyl acrylate-α-methyl methacrylate-glycidyl methacrylate (BA-MMA-GMA) terpolymer was successfully grafted onto carbon nanotubes (CNTs) via a facile grafting functionalization approach, affording an organically functionalized multiwalled CNTs (O-MWCNTs), which show improved mechanical and thermal properties in natural rubber/styrene-butadiene rubber (NR/SBR) composites. Under optimized conditions, the result of elongation at break of NR/SBR composites combined with 1.5 parts per hundred rubber (phr) O-MWCNTs is 450% compared to 376% of pristine NR/SBR composites, which is proportional to tensile strength due to the mixed O-MWCNTs in the rubber matrix. Transmission electron microscopy study shows that O-MWCNTs (1.5 phr) can disperse uniformly in NR/SBR/O-MWCNT composites. A scanning electron microscopy study on the fractured surface morphology of the optimized composites reveals that a BA-MMA-GMA terpolymer can interact with the rubber matrix strongly. The decreased height of the maximum tanδ peak shows that O-MWCNTs can reduce the heat buildup and damping capability of NR/SBR/O-MWCNT composites. The largest enhancement observed in the thermal degradation curves of composites is, for the first time, about 70°C, which can be attributed to enhanced interfacial interaction between MWCNTs and the rubber matrix. Walter de Gruyter Online Zeitschriften carbon nanotubes interfacial interaction rubber matrix Li, Minghua oth Tu, Weixiao oth Chen, Xinfeng oth Wang, Huihui oth Chen, Jinyang oth Enthalten in Journal of polymer engineering Berlin : de Gruyter, 1984 36(2016), 8 vom: 20. Jan., Seite 813-818 (DE-627)NLEJ248236601 (DE-600)2602430-5 2191-0340 nnns volume:36 year:2016 number:8 day:20 month:01 pages:813-818 extent:6 https://doi.org/10.1515/polyeng-2015-0136 Deutschlandweit zugänglich GBV_USEFLAG_U ZDB-1-DGR GBV_NL_ARTICLE AR 36 2016 8 20 1 813-818 6
allfieldsGer	10.1515/polyeng-2015-0136 doi articles2015-2020.pp (DE-627)NLEJ248140523 DE-627 ger DE-627 rakwb NR/SBR composites reinforced with organically functionalized MWCNTs: simultaneous improvement of tensile strength and elongation and enhanced thermal stability De Gruyter 2016 6 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Butyl acrylate-α-methyl methacrylate-glycidyl methacrylate (BA-MMA-GMA) terpolymer was successfully grafted onto carbon nanotubes (CNTs) via a facile grafting functionalization approach, affording an organically functionalized multiwalled CNTs (O-MWCNTs), which show improved mechanical and thermal properties in natural rubber/styrene-butadiene rubber (NR/SBR) composites. Under optimized conditions, the result of elongation at break of NR/SBR composites combined with 1.5 parts per hundred rubber (phr) O-MWCNTs is 450% compared to 376% of pristine NR/SBR composites, which is proportional to tensile strength due to the mixed O-MWCNTs in the rubber matrix. Transmission electron microscopy study shows that O-MWCNTs (1.5 phr) can disperse uniformly in NR/SBR/O-MWCNT composites. A scanning electron microscopy study on the fractured surface morphology of the optimized composites reveals that a BA-MMA-GMA terpolymer can interact with the rubber matrix strongly. The decreased height of the maximum tanδ peak shows that O-MWCNTs can reduce the heat buildup and damping capability of NR/SBR/O-MWCNT composites. The largest enhancement observed in the thermal degradation curves of composites is, for the first time, about 70°C, which can be attributed to enhanced interfacial interaction between MWCNTs and the rubber matrix. Walter de Gruyter Online Zeitschriften carbon nanotubes interfacial interaction rubber matrix Li, Minghua oth Tu, Weixiao oth Chen, Xinfeng oth Wang, Huihui oth Chen, Jinyang oth Enthalten in Journal of polymer engineering Berlin : de Gruyter, 1984 36(2016), 8 vom: 20. Jan., Seite 813-818 (DE-627)NLEJ248236601 (DE-600)2602430-5 2191-0340 nnns volume:36 year:2016 number:8 day:20 month:01 pages:813-818 extent:6 https://doi.org/10.1515/polyeng-2015-0136 Deutschlandweit zugänglich GBV_USEFLAG_U ZDB-1-DGR GBV_NL_ARTICLE AR 36 2016 8 20 1 813-818 6
allfieldsSound	10.1515/polyeng-2015-0136 doi articles2015-2020.pp (DE-627)NLEJ248140523 DE-627 ger DE-627 rakwb NR/SBR composites reinforced with organically functionalized MWCNTs: simultaneous improvement of tensile strength and elongation and enhanced thermal stability De Gruyter 2016 6 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Butyl acrylate-α-methyl methacrylate-glycidyl methacrylate (BA-MMA-GMA) terpolymer was successfully grafted onto carbon nanotubes (CNTs) via a facile grafting functionalization approach, affording an organically functionalized multiwalled CNTs (O-MWCNTs), which show improved mechanical and thermal properties in natural rubber/styrene-butadiene rubber (NR/SBR) composites. Under optimized conditions, the result of elongation at break of NR/SBR composites combined with 1.5 parts per hundred rubber (phr) O-MWCNTs is 450% compared to 376% of pristine NR/SBR composites, which is proportional to tensile strength due to the mixed O-MWCNTs in the rubber matrix. Transmission electron microscopy study shows that O-MWCNTs (1.5 phr) can disperse uniformly in NR/SBR/O-MWCNT composites. A scanning electron microscopy study on the fractured surface morphology of the optimized composites reveals that a BA-MMA-GMA terpolymer can interact with the rubber matrix strongly. The decreased height of the maximum tanδ peak shows that O-MWCNTs can reduce the heat buildup and damping capability of NR/SBR/O-MWCNT composites. The largest enhancement observed in the thermal degradation curves of composites is, for the first time, about 70°C, which can be attributed to enhanced interfacial interaction between MWCNTs and the rubber matrix. Walter de Gruyter Online Zeitschriften carbon nanotubes interfacial interaction rubber matrix Li, Minghua oth Tu, Weixiao oth Chen, Xinfeng oth Wang, Huihui oth Chen, Jinyang oth Enthalten in Journal of polymer engineering Berlin : de Gruyter, 1984 36(2016), 8 vom: 20. Jan., Seite 813-818 (DE-627)NLEJ248236601 (DE-600)2602430-5 2191-0340 nnns volume:36 year:2016 number:8 day:20 month:01 pages:813-818 extent:6 https://doi.org/10.1515/polyeng-2015-0136 Deutschlandweit zugänglich GBV_USEFLAG_U ZDB-1-DGR GBV_NL_ARTICLE AR 36 2016 8 20 1 813-818 6
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topic_title	NR/SBR composites reinforced with organically functionalized MWCNTs: simultaneous improvement of tensile strength and elongation and enhanced thermal stability carbon nanotubes interfacial interaction rubber matrix
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title_sort	nr/sbr composites reinforced with organically functionalized mwcnts: simultaneous improvement of tensile strength and elongation and enhanced thermal stability
title_auth	NR/SBR composites reinforced with organically functionalized MWCNTs: simultaneous improvement of tensile strength and elongation and enhanced thermal stability
abstract	Butyl acrylate-α-methyl methacrylate-glycidyl methacrylate (BA-MMA-GMA) terpolymer was successfully grafted onto carbon nanotubes (CNTs) via a facile grafting functionalization approach, affording an organically functionalized multiwalled CNTs (O-MWCNTs), which show improved mechanical and thermal properties in natural rubber/styrene-butadiene rubber (NR/SBR) composites. Under optimized conditions, the result of elongation at break of NR/SBR composites combined with 1.5 parts per hundred rubber (phr) O-MWCNTs is 450% compared to 376% of pristine NR/SBR composites, which is proportional to tensile strength due to the mixed O-MWCNTs in the rubber matrix. Transmission electron microscopy study shows that O-MWCNTs (1.5 phr) can disperse uniformly in NR/SBR/O-MWCNT composites. A scanning electron microscopy study on the fractured surface morphology of the optimized composites reveals that a BA-MMA-GMA terpolymer can interact with the rubber matrix strongly. The decreased height of the maximum tanδ peak shows that O-MWCNTs can reduce the heat buildup and damping capability of NR/SBR/O-MWCNT composites. The largest enhancement observed in the thermal degradation curves of composites is, for the first time, about 70°C, which can be attributed to enhanced interfacial interaction between MWCNTs and the rubber matrix.
abstractGer	Butyl acrylate-α-methyl methacrylate-glycidyl methacrylate (BA-MMA-GMA) terpolymer was successfully grafted onto carbon nanotubes (CNTs) via a facile grafting functionalization approach, affording an organically functionalized multiwalled CNTs (O-MWCNTs), which show improved mechanical and thermal properties in natural rubber/styrene-butadiene rubber (NR/SBR) composites. Under optimized conditions, the result of elongation at break of NR/SBR composites combined with 1.5 parts per hundred rubber (phr) O-MWCNTs is 450% compared to 376% of pristine NR/SBR composites, which is proportional to tensile strength due to the mixed O-MWCNTs in the rubber matrix. Transmission electron microscopy study shows that O-MWCNTs (1.5 phr) can disperse uniformly in NR/SBR/O-MWCNT composites. A scanning electron microscopy study on the fractured surface morphology of the optimized composites reveals that a BA-MMA-GMA terpolymer can interact with the rubber matrix strongly. The decreased height of the maximum tanδ peak shows that O-MWCNTs can reduce the heat buildup and damping capability of NR/SBR/O-MWCNT composites. The largest enhancement observed in the thermal degradation curves of composites is, for the first time, about 70°C, which can be attributed to enhanced interfacial interaction between MWCNTs and the rubber matrix.
abstract_unstemmed	Butyl acrylate-α-methyl methacrylate-glycidyl methacrylate (BA-MMA-GMA) terpolymer was successfully grafted onto carbon nanotubes (CNTs) via a facile grafting functionalization approach, affording an organically functionalized multiwalled CNTs (O-MWCNTs), which show improved mechanical and thermal properties in natural rubber/styrene-butadiene rubber (NR/SBR) composites. Under optimized conditions, the result of elongation at break of NR/SBR composites combined with 1.5 parts per hundred rubber (phr) O-MWCNTs is 450% compared to 376% of pristine NR/SBR composites, which is proportional to tensile strength due to the mixed O-MWCNTs in the rubber matrix. Transmission electron microscopy study shows that O-MWCNTs (1.5 phr) can disperse uniformly in NR/SBR/O-MWCNT composites. A scanning electron microscopy study on the fractured surface morphology of the optimized composites reveals that a BA-MMA-GMA terpolymer can interact with the rubber matrix strongly. The decreased height of the maximum tanδ peak shows that O-MWCNTs can reduce the heat buildup and damping capability of NR/SBR/O-MWCNT composites. The largest enhancement observed in the thermal degradation curves of composites is, for the first time, about 70°C, which can be attributed to enhanced interfacial interaction between MWCNTs and the rubber matrix.
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title_short	NR/SBR composites reinforced with organically functionalized MWCNTs: simultaneous improvement of tensile strength and elongation and enhanced thermal stability
url	https://doi.org/10.1515/polyeng-2015-0136
remote_bool	true
author2	Li, Minghua Tu, Weixiao Chen, Xinfeng Wang, Huihui Chen, Jinyang
author2Str	Li, Minghua Tu, Weixiao Chen, Xinfeng Wang, Huihui Chen, Jinyang
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author2_role	oth oth oth oth oth
doi_str	10.1515/polyeng-2015-0136
up_date	2024-07-05T22:43:49.646Z
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