[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.1016/j.jiec.2012.10.012

Effect of carbon nanotubes with different lengths on mechanical and electrical properties of silica-filled styrene butadiene rubber compounds

Park, Suk Moon (School of Applied Chemical Engineering, Chonnam National University)
Lim, Young Woo (School of Applied Chemical Engineering, Chonnam National University)
Kim, Chang Hwan (NEXEN Tire Corporation R&D Center)
Kim, Dong Jin (NEXEN Tire Corporation R&D Center)
Moon, Won-Jin (Korea Basic Science Institute Gwangju Center)
Kim, Jee-Hoon (School of Materials Science and Engineering, Chonnam National University)
Lee, Jong-Sook (School of Materials Science and Engineering, Chonnam National University)
Hong, Chang Kook (School of Applied Chemical Engineering, Chonnam National University)
Seo, Gon (School of Applied Chemical Engineering, Chonnam National University)

Publication Information

Journal of Industrial and Engineering Chemistry / v.19, no.2, 2013 , pp. 712-719 More about this Journal

Abstract

Carbon nanotubes (CNTs) having three different lengths of 5, 30, and 100 ${\mu}m$ were added to silica-filled styrene butadiene rubber (SBR) compounds in order to investigate the effect of the CNT addition on the dynamic and electrical properties. The amounts of CNTs were 1, 2, 4, and 7 phr, while the amount of silica was set high at 80 phr to clearly demonstrate the performance of the CNTs as fillers. The effect of CNTs on the silica-filled SBR compounds on the tensile properties is not significant, but the addition of longer CNTs with high loading severely deteriorated the dynamic properties, but considerably enhanced electrical conductivity. The medium loading of CNTs in silica-filled SBR compounds is suitable for the improvement of the electrical conductivity without severely sacrificing the dynamic properties.

Keywords

Carbon nanotube; SBR; Silica; Dynamic property; Electrical property;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	S. Uhrlandt, A. Blume, Kautschuk Gummi Kunststoffe 54 (2001) 520.
2	W. Hopkins, W. Hellens, A. Koski, J. Rausa, Rubber World 226 (2002) 37.
3	G. Heinrich, T.A. Vilgis, Kautschuk Gummi Kunststoffe 61 (2008) 368.
4	B.T. Poh, C.C. Ng, European Polymer Journal 34 (1998) 975. DOI ScienceOn
5	J.W. Ten Brinke, S.C. Debnath, L. Reuvekamp, J.W.M. Noordermeer, Composites Science and Technology 63 (2003) 1165. DOI ScienceOn
6	A.S. Hashim, B. Axahari, Y. Ikeda, S. Kohjiya, Rubber Chemistry and Technology 71 (1997) 289.
7	I. Cho, KR Patent 10-0689975 (2006).
8	H. Cheong, Y. Ahn, KR Patent 10-05322625 (2005).
9	R. Andrews, M.C. Weisenberger, Current Opinion in Solid State & Materials Science 8 (2004) 31. DOI ScienceOn
10	M. Yang, V. Koutsos, M. Zaiser, Journal of Physical Chemistry B 109 (2005) 10009. DOI ScienceOn
11	A.M. Shanmugharaj, J.H. Bae, K.Y. Lee, W.H. Noh, S.H. Lee, S.H. Ryu, Composites Science and Technology 67 (2007) 1813. DOI ScienceOn
12	Z.M. Mahdieh, V. Mottaghitalab, N. Piri N., A.K. Haghi, Korean Journal of Chemical Engineering 29 (2012) 111. DOI ScienceOn
13	C. Nah, J.Y. Lim, B.H. Cho, C.K. Hong, A.N. Gent, Journal of Applied Polymer Science 118 (2010) 1574.
14	J. Choi, A.I. Isayev, Rubber Chemistry and Technology 85 (2012) 14. DOI
15	J. Fritzsche, H. Lorenz, M. Kluppel, Macromolecular Materials and Engineering 294 (2009) 551. DOI ScienceOn
16	H. Lorenz, J. Fritzsche, A. Das, K.W. Stockelhuber, R. Jurk, G. Heinrich, M. Kluppel, Composites Science and Technology 69 (2009) 2135. DOI ScienceOn
17	X. Zhou, Y. Zhu, Q. Gong, J. Liang, Materials Letters 60 (2006) 3769. DOI ScienceOn
18	K.A. Grosch, Rubber Chemistry and Technology 69 (1996) 495. DOI
19	F. Cataldo, Angewandte Makromolekulare Chemie 270 (1999) 81. DOI
20	V.V. Rajan, W.K. Dierkes, R. Joseph, J.W.M. Noordermeer, Journal of Applied Polymer Science 102 (2006) 4194. DOI ScienceOn
21	M.S. Dresselhaus, G. Dresselhaus, R. Saito, A. Jorio, Physics Reports 409 (2005) 47. DOI ScienceOn
22	G. Seo, S.M. Park, K. Ha, K.T. Choi, C.K. Hong, S. Kaang, Journal of Materials Science 45 (2010) 1897. DOI ScienceOn
23	A.N. Gent, J.A. Hartwell, Rubber Chemistry and Technology 76 (2003) 517. DOI
24	P.J. Flory, J. Rehner, Journal of Chemical Physics 11 (1943) 512. DOI
25	M. Moniruzzaman, K.I. Winey, Macromolecules 39 (2006) 5194. DOI ScienceOn
26	L. Bokobza, M. Kolodziej, Polymer International 55 (2006) 1090. DOI ScienceOn
27	L. Bokobza, C. Belin, Journal of Applied Polymer Science 105 (2007) 2054. DOI ScienceOn
28	J. Diani, B. Fayolle, P. Gilormini, European Polymer Journal 45 (2009) 601. DOI ScienceOn

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