Synergistic effects of hybrid carbon nanomaterials in room‐temperature‐vulcanized silicone rubber

Synergistic effects of hybrid carbon nanomaterials in room‐temperature‐vulcanized silicone rubber

This work examines nanocomposites based on nanofillers and room‐temperature‐vulcanized silicone rubber. The carbon nanofillers used were conductive carbon black (CB), carbon nanotubes (CNTs) and graphene (GE). Vulcanizates for CB, GE, CNTs as the only filler and hybrid fillers using CNTs, CB and GE...

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Bibliographic Details
Published in:Polymer international Vol. 66; no. 3; pp. 450 - 458
Main Authors: Kumar, Vineet, Lee, Jin‐Yong, Lee, Dong‐Joo
Format: Journal Article
Language:English
Published: Chichester, UK John Wiley & Sons, Ltd 01-03-2017
Wiley Subscription Services, Inc
Subjects:
Carbon
Carbon nanotubes
Fillers
Graphene
Nanomaterials
Nanostructure
RTV silicone rubber
rubber nanocomposites
Silicone rubber
Synergistic effect
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Summary:This work examines nanocomposites based on nanofillers and room‐temperature‐vulcanized silicone rubber. The carbon nanofillers used were conductive carbon black (CB), carbon nanotubes (CNTs) and graphene (GE). Vulcanizates for CB, GE, CNTs as the only filler and hybrid fillers using CNTs, CB and GE were prepared by solution mixing. The elastic modulus for CNT hybrid with CB at 15 phr (4.65 MPa) was higher than for CB hybrid with GE (3.13 MPa) and CNTs/CB/GE as the only filler. Similarly, the resistance for CNT hybrid with CB at 10 phr (0.41 kΩ) was lower than for CB (0.84 kΩ) at 20 phr and CNTs as the only filler. These improvements result from efficient filler networking, a synergistic effect among the carbon nanomaterials, the high aspect ratio of CNTs and the improved filler dispersion in the rubber matrix. © 2016 Society of Chemical Industry Vulcanizates based on pristine GE, CB, CNT hybrid reinforced silicone rubber were studied. The elastic modulus for CNT hybrid with CB was highest and resistance was lowest. These improvements resulted from efficient filler networking, a synergistic effect and optimum filler dispersion.
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ISSN:0959-8103
1097-0126
DOI:10.1002/pi.5283