Polymer-Plastics Technology and Materials, Journal Year: 2024, Volume and Issue: unknown, P. 1 - 25

Published: Dec. 20, 2024

Recently, poly(ether ether ketone) (PEEK), an engineering thermoplastics, and graphene-derived nanocomposites emerged as promising structural/device materials, attracting significant scientific attention owing to valuable morphological, mechanical/thermal resilience, electron/heat transportation, tribological features, biological properties. Nevertheless, despite their potential, there remains a gap in comprehensive understanding of mechanical, wear, thermal/conductivity, performance. Current review addresses this by stating recent progresses perusing key characteristics these ketone)/graphene nanocomposites. For purpose, we systematically categorized critically analyzed the past/present literature multifunctional ketone)/graphene, oxide, ketone)/reduced graphene ketone)/surface modified graphene/graphene oxide hybrids. We noticed variety manufacturing strategies, such solution route, melt mixing, situ method, injection/compression molding, three-dimensional printing, allied tactics along with theoretical simulation/modeling for technological materials. Depending upon surface modification, matrix–nanofiller interaction, compatibility, interface formation, PEEK/graphene hybrids exposed high-end applications aeronautical engineering, fuel cell devices, bone tissue scaffold implantation purposes. future research on PEEK/modified must focus advanced structural designs, well-defined structure–property relationships, processing techniques well-controllable parameters, explorations mechanism/phenomenon involved attain hi-tech/high performance

Language: Английский