Triggering the Self‐Healing Properties of Modified Bromobutyl Rubber by Intrinsically Electrical Heating

Triggering the Self‐Healing Properties of Modified Bromobutyl Rubber by Intrinsically Electrical Heating

In this study, the development and characterization of an intrinsically self‐healable material have been reported based on bromobutyl rubber (BIIR) modified with imidazole (Im) and loaded with carbon nanotubes (CNTs) as reinforcing and electrically conducting agent. The ionic imidazolium groups faci...

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Veröffentlicht in:Macromolecular materials and engineering 2017-04, Vol.302 (4), p.np-n/a
Hauptverfasser: Le, Hong Hai, Böhme, Frank, Sallat, Aladin, Wießner, Sven, auf der Landwehr, Maria, Reuter, Uta, Stöckelhuber, Klaus‐Werner, Heinrich, Gert, Radusch, Hans‐Joachim, Das, Amit
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Sprache:eng
Schlagworte:
bromobutyl elastomers
Carbon nanotubes
Cations
conducting elastomer
Damage
Electric potential
electrical heating
Heating
Imidazole
Nanotubes
Networks
Rubber
self‐healing
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container_issue 4
container_start_page np
container_title Macromolecular materials and engineering
container_volume 302
creator Le, Hong Hai
Böhme, Frank
Sallat, Aladin
Wießner, Sven
auf der Landwehr, Maria
Reuter, Uta
Stöckelhuber, Klaus‐Werner
Heinrich, Gert
Radusch, Hans‐Joachim
Das, Amit
description In this study, the development and characterization of an intrinsically self‐healable material have been reported based on bromobutyl rubber (BIIR) modified with imidazole (Im) and loaded with carbon nanotubes (CNTs) as reinforcing and electrically conducting agent. The ionic imidazolium groups facilitate an ionic network, which imparts the composites a pronounced self‐healing behavior. The cation‐π bondings between modified BIIR and CNT surface improve the rubber‐filler interaction leading to a better mechanical performance and a higher electrical conductivity of the composites. It has been demonstrated that the healing process can be accelerated by applying an electrical current across a damaged surface of a test specimen owing to the Joule heating effect. The recovery of the mechanical and electrical properties of the composites is investigated under different test conditions and specifically discussed in terms of the rubber‐filler interactions and the filler dispersion. The applied scientific approach with the exploration of the unique nature of the imidazolium modified and CNT loaded BIIR may promote developments for a new class of rubber materials for different smart and technological applications. An intrinsically self‐healable elastomeric material based on reversible ionic clusters is reinforced with conducting carbon nanotubes. The electrical conducting nature was further exploited to enhance the self‐healing efficiency through application of electrical voltage across the damaged region.
doi_str_mv 10.1002/mame.201600385
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source Wiley Online Library Journals Frontfile Complete
subjects bromobutyl elastomers
Carbon nanotubes
Cations
conducting elastomer
Damage
Electric potential
electrical heating
Heating
Imidazole
Nanotubes
Networks
Rubber
self‐healing
title Triggering the Self‐Healing Properties of Modified Bromobutyl Rubber by Intrinsically Electrical Heating
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