Journal of Industrial and Engineering Chemistry, Vol.19, No.4, 1169-1176, July, 2013
Characteristics of natural rubber hybrid composites based on marble sludge/carbon black and marble sludge/rice husk derived silica
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This paper discusses an extensive overview of characterization of marble sludge (MS) with carbon black (CB) and rice husk derived silica (RHS) in hybrid natural rubber (NR) composite. Cure characteristics, mechanical and swelling properties of MS/CB and MS/RHS hybrid NR composite were investigated. As CB and RHS content increases in weight ratio of MS/CB and MS/RHS a decrease in scorch and cure time and increase in the torque, tensile, tear, modulus, hardness, crosslink density were observed, while elongation at break and swelling coefficient decreased. The aging behavior of corresponding hybrid composite materials was also evaluated at two different temperatures.
Keywords:Composite;Natural rubber;Marble sludge;Carbon black;Rice husk derived silica;Mechanical properties
- Gandy M, Recycling and waste: an exploration of contemporary environmental policy, in: Avebury Studies in Green Research Series, Ashgate publishing Limited, London (1993)
- Soumare M, Tack FMG, Verloo MG, Bioresour. Technol., 86(1), 15 (2003)
- Abdel-Sabour MF, Abo El-Seoud MA, Agriculture, Ecosystems and Environment., 60, 157 (1996)
- Binici H, Hasan K, Salih Y, Scientific Research and Essays., 2, 372 (2007)
- Karasahin M, Terzi S, Construction and Building Materials., 21, 616 (2007)
- Acchar W, Vieira FW, Hotza D, Materials Science and Engineering A., 419, 306 (2006)
- Arslan E, Aslan S, Ipek U, Altun S, Yaziciog˘lu S, Waste Management & Research., 23, 550 (2005)
- Agrawal S, Mandot S, Bandyopadhyay S, Mukhopadhyay R, Progress in Rubber Plastics Recycling Technology., 20, 229 (2004)
- Tawfik ME, Eskander SB, Journal of Elastomers and Plastics., 29, 65 (2005)
- Salaeh S, Nakason C, Polymer Composites., 33, 489 (2012)
- Prasertsri S, Rattanasom N, Polymer Testing., 30, 515 (2011)
- Dogan M, Oral DD, Yilmaz B, Savu M, Karahan S, Bayramli E, J. Appl. Polym. Sci., 121(3), 1530 (2011)
- Ishak ZA, Bakar MAA, European Polymer Journal., 31, 259 (1995)
- Bertrand P, Wang LT, Rubber Chemistry and Technology., 75, 627 (2002)
- Edwards DC, Journal of Materials Science., 25, 4175 (1990)
- Kim IJ, Kim WS, Lee DH, Kim W, Bae JW, J. Appl. Polym. Sci., 117(3), 1535 (2010)
- Jeong DS, Hong CK, Lim GT, Seo G, Seok C, Journal of Elastomers and Plastics., 41, 353 (2009)
- Hongsang S, Sombatsompop N, Journal of Macromolecular Science, Part B: Physics., 46, 825 (2007)
- Ismail H, Nasaruddin MN, Ishiaku US, Polymer Testing., 18, 287 (1999)
- Ismail H, Nasaruddin MN, Rozman HD, European Polymer Journal., 35, 1429 (1999)
- Siriwardena S, Ismail H, Ishiaku US, Perera MCS, J. Appl. Polym. Sci., 85(2), 438 (2002)
- Mehta PK, Haxo HE, Rubber Chemistry and Technology., 48, 271 (1975)
- Unnikrishnan G, Thomas S, Polymer, 35(25), 5504 (1994)
- Flory PJ, Rehner J, Journal of Chemical Physics., 11, 512 (1943)
- Mark HF, Chemical crosslinking’, in: Encyclopedia of Polymer Science and Technology, Interscience Publishers, John Wiley & Sons Inc., NY (1996)
- Sezna JA, Pawlowski HA, Deconinck D, Proceeding of the 136th meeting of the ACS rubber division, Fall (1989)
- Malini KA, Kurian P, Ananthraman MR, Materials Letters., 57, 3381 (2003)
- Dannenberg EM, Rubber Chemistry and Technology., 48, 410 (1975)
- Wang MJ, Rubber Chemistry and Technology., 71, 520 (1998)
- Bhowmick AK, White JR, J. Mater. Sci., 37(23), 5141 (2002)
- Ahagon A, Kida M, Kaidou H, Rubber Chemistry and Technology., 63, 683 (1990)
- Baldwin M, Bauer DR, Ellwood KR, Rubber Chemistry and Technology., 78, 336 (2005)
- Ngolemasango EF, Bennett M, Clarke J, J. Appl. Polym. Sci., 102(4), 3732 (2006)