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Elastomer-carbon nanotube composites

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Elastomer-carbon nanotube composites. / Fritzsche, J.; Lorenz, H.; Klüppel, M.; Das, A.; Jurk, R.; Stöckelhuber, K. W.; Heinrich, G.

Polymer-Carbon Nanotube Composites: Preparation, Properties and Applications. Elsevier Science Ltd., 2011. p. 193-229.

Research output: Chapter in Book/Report/Conference proceedingChapterScientificpeer-review

Harvard

Fritzsche, J, Lorenz, H, Klüppel, M, Das, A, Jurk, R, Stöckelhuber, KW & Heinrich, G 2011, Elastomer-carbon nanotube composites. in Polymer-Carbon Nanotube Composites: Preparation, Properties and Applications. Elsevier Science Ltd., pp. 193-229. https://doi.org/10.1533/9780857091390.1.193

APA

Fritzsche, J., Lorenz, H., Klüppel, M., Das, A., Jurk, R., Stöckelhuber, K. W., & Heinrich, G. (2011). Elastomer-carbon nanotube composites. In Polymer-Carbon Nanotube Composites: Preparation, Properties and Applications (pp. 193-229). Elsevier Science Ltd.. https://doi.org/10.1533/9780857091390.1.193

Vancouver

Fritzsche J, Lorenz H, Klüppel M, Das A, Jurk R, Stöckelhuber KW et al. Elastomer-carbon nanotube composites. In Polymer-Carbon Nanotube Composites: Preparation, Properties and Applications. Elsevier Science Ltd. 2011. p. 193-229 https://doi.org/10.1533/9780857091390.1.193

Author

Fritzsche, J. ; Lorenz, H. ; Klüppel, M. ; Das, A. ; Jurk, R. ; Stöckelhuber, K. W. ; Heinrich, G. / Elastomer-carbon nanotube composites. Polymer-Carbon Nanotube Composites: Preparation, Properties and Applications. Elsevier Science Ltd., 2011. pp. 193-229

Bibtex - Download

@inbook{e14cdb6e2f244e76a540f5e29ed00ff8,
title = "Elastomer-carbon nanotube composites",
abstract = "Different techniques to disperse multi-walled carbon nanotubes (MWCNT) in elastomers using an internal mixer are applied and the physical properties of the resulting composites are evaluated. It is demonstrated that the dispersion can be improved if the CNT are suspended in a liquid agent in a first step to break up the bonds. Here, ethanol proved to be a good dispersion agent without any additional surfactant and could be vaporized during the mixing process. These investigations are extended to technologically more relevant filler hybrid systems, where parts of the reinforcing filler are exchanged by CNT. Additionally, the use of ionic liquids for improved CNT-polymer interaction is discussed. The dielectric properties, electrical DC conductivity, thermal diffusivity, dynamic-mechanical as well as the stress-strain and fracture mechanical behavior of CNT-filled composites are investigated. The effect of nanoscopic gaps between adjacent CNT on the electrical and thermal conductivity of the composites and the missing percolation behavior of the thermal conductivity are discussed.",
keywords = "Carbon nanotubes, Elastomers, Hybrid systems, Ionic liquids, Reinforcement",
author = "J. Fritzsche and H. Lorenz and M. Kl{\"u}ppel and A. Das and R. Jurk and St{\"o}ckelhuber, {K. W.} and G. Heinrich",
year = "2011",
month = "3",
doi = "10.1533/9780857091390.1.193",
language = "English",
isbn = "9781845697617",
pages = "193--229",
booktitle = "Polymer-Carbon Nanotube Composites: Preparation, Properties and Applications",
publisher = "Elsevier Science Ltd.",

}

RIS (suitable for import to EndNote) - Download

TY - CHAP

T1 - Elastomer-carbon nanotube composites

AU - Fritzsche, J.

AU - Lorenz, H.

AU - Klüppel, M.

AU - Das, A.

AU - Jurk, R.

AU - Stöckelhuber, K. W.

AU - Heinrich, G.

PY - 2011/3

Y1 - 2011/3

N2 - Different techniques to disperse multi-walled carbon nanotubes (MWCNT) in elastomers using an internal mixer are applied and the physical properties of the resulting composites are evaluated. It is demonstrated that the dispersion can be improved if the CNT are suspended in a liquid agent in a first step to break up the bonds. Here, ethanol proved to be a good dispersion agent without any additional surfactant and could be vaporized during the mixing process. These investigations are extended to technologically more relevant filler hybrid systems, where parts of the reinforcing filler are exchanged by CNT. Additionally, the use of ionic liquids for improved CNT-polymer interaction is discussed. The dielectric properties, electrical DC conductivity, thermal diffusivity, dynamic-mechanical as well as the stress-strain and fracture mechanical behavior of CNT-filled composites are investigated. The effect of nanoscopic gaps between adjacent CNT on the electrical and thermal conductivity of the composites and the missing percolation behavior of the thermal conductivity are discussed.

AB - Different techniques to disperse multi-walled carbon nanotubes (MWCNT) in elastomers using an internal mixer are applied and the physical properties of the resulting composites are evaluated. It is demonstrated that the dispersion can be improved if the CNT are suspended in a liquid agent in a first step to break up the bonds. Here, ethanol proved to be a good dispersion agent without any additional surfactant and could be vaporized during the mixing process. These investigations are extended to technologically more relevant filler hybrid systems, where parts of the reinforcing filler are exchanged by CNT. Additionally, the use of ionic liquids for improved CNT-polymer interaction is discussed. The dielectric properties, electrical DC conductivity, thermal diffusivity, dynamic-mechanical as well as the stress-strain and fracture mechanical behavior of CNT-filled composites are investigated. The effect of nanoscopic gaps between adjacent CNT on the electrical and thermal conductivity of the composites and the missing percolation behavior of the thermal conductivity are discussed.

KW - Carbon nanotubes

KW - Elastomers

KW - Hybrid systems

KW - Ionic liquids

KW - Reinforcement

UR - http://www.scopus.com/inward/record.url?scp=84903960747&partnerID=8YFLogxK

U2 - 10.1533/9780857091390.1.193

DO - 10.1533/9780857091390.1.193

M3 - Chapter

SN - 9781845697617

SP - 193

EP - 229

BT - Polymer-Carbon Nanotube Composites: Preparation, Properties and Applications

PB - Elsevier Science Ltd.

ER -