Processing, structure and properties of poly(ether ketone) grafted few wall carbon nanotube composite fibers |
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Authors: | Rahul Jain Young Ho Choi Marilyn L. Minus Han Gi Chae Satish Kumar Jong-Beom Baek |
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Affiliation: | a School of Polymer, Textile and Fiber Engineering, Georgia Institute of Technology, Atlanta, GA 30332, USA b Interdisciplinary School of Green Energy/Institute of Advanced Materials & Devices, Ulsan National Institute of Science and Technology, Ulsan, 689-798, South Korea |
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Abstract: | Poly(ether ketone) (PEK) was grafted onto few wall carbon nanotube (FWNT) using in-situ polymerization of 4-phenoxybenzoic acid (4-PBA) in poly(phosphoric acid) (PPA), and fibers were processed using dry-jet wet-spinning. The PEK/FWNT weight ratio was in the range of 99/1 to 80/20. The fibers have been characterized for their morphology, structure, mechanical properties, as well as electrical conductivity. The toughness (work of rupture) of the PEK fibers, as measured from the area under the stress-strain curves, was as high as 130 J/g and often exceeded the toughness of the toughest synthetic fibers such as Kevlar™ (∼45 J/g) and Zylon™ (∼50 J/g) and approached values closer to that of spider silk (∼170 J/g). PEK and PEK-g-FWNT fibers exhibit good thermal stability with degradation onset of above 500 °C under nitrogen environment, and possess high char yield (∼50% for 5 wt% FWNT containing PEK fiber). PEK-g-FWNT fibers can be processed that exhibit good dimensional stability up to 300 °C (coefficient of thermal expansion ∼−1.2 × 10−5/°C) and the axial electrical conductivity was as high as 240 S/m at 20 wt% FWNT loading. |
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Keywords: | Carbon nanotube Poly(ether ketone) Nanocomposite |
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