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dc.contributor.authorBal, S-
dc.contributor.authorNayak, Y-
dc.identifier.citationProceedings of 93rd Indian Science Congress Association,Section XIII-Physical Sciences, Jan 3-7 2006 Hyderabad, India, P 61 (Poster presentation is attached)en
dc.descriptionCopyright for this article belongs to Indian Science Congress Association Pen
dc.description.abstractPrior to the discovery of nanotubes, no other material known to mankind possessed such a unique combination of extraordinary properties. It is this fact that most of the research work in the field of nanotechnology has been concentrated in the past decade around CNTs and their applications. CNTs are proven to be the stiffest, strongest and the toughest fiber ever known. The values of tensile strength that have been reported are by far the highest for any material.Their outstanding electrical conductivity values make the polymer to exhibit metallic-type conductivity by incorporating them as filler. Continuing along this line of research, novel CNT-based composites have been fabricated using different methods, expecting that the resulting composites would possess enhanced or completely new set of physical properties due to the addition of CNTs.en
dc.format.extent51511 bytes-
dc.publisherIndian Science Congress Associationen
dc.subjectCarbon Nanotubeen
dc.subjectyoung's modulusen
dc.titleInfluence of nanomodification on physical properties of polymer nanocompositesen
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