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Carboxylated Nitrile Elastomer/Filler Nanocomposite: Effect of Silica Nanofiller in Thermal, Dynamic Mechanical Behavior, and Interfacial Adhesion  

Mahaling R. N. (Materials Science Centre, Indian Institute of Technology)
Jana G. K. (Materials Science Centre, Indian Institute of Technology)
Das C. K. (Materials Science Centre, Indian Institute of Technology)
Jeong, H. (Department of Polymer Science and Engineering, Pusan National University)
Ha C. S. (Department of Polymer Science and Engineering, Pusan National University)
Publication Information
Macromolecular Research / v.13, no.4, 2005 , pp. 306-313 More about this Journal
Abstract
Surface modified nanofillers are often used as curative-cum reinforcing agents for functional polymers. The polymer nanofiller interaction depends on the curative systems used. In the present study the carboxylic group of the carboxylated nitrile elastomer participated in the reaction with Zn-ion coated nanosilica filler producing a type of ionomeric elastomer. The interaction at the molecular level thus produced a high modulus vulcanizate. In this case, the S and MBT system, as curative, had an edge over the MDA and DPG curative system. Interfacial adhesion was enhanced in the presence of Zn-ion-coated nanosilica filler associated with dynamic mechanical behavior. The inferior properties obtained in the case of the MDA and DPG curative system were due to the decreased reactivity of the silica surface, thus reducing interfacial adhesion.
Keywords
vulcanizate; carboxylated nitrile elastomer (XNBR); nanofiller; silica; Zinc-ion;
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