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Di Hu,Chao Xiao,Xia Wang,Xike Xiong,Jun Sun,Qiqi Zhuo,Jianjun Wang,Chuanxiang Qin,Lixing Dai 한국섬유공학회 2019 Fibers and polymers Vol.20 No.12
Nanofiller reinforcement is an effective approach to realize high performance of regular synthetic fibers. In thispaper, graphene oxide nanoribbons (GONRs) with complete morphology were prepared via unzipping single-walled carbonnanotubes (SWCNTs) through long-time freeze-drying after oxidation. GONRs derived from SWCNTs (SGONRs) did notneed any modification and could be directly added to poly(vinyl alcohol) (PVA) to form uniform dispersions and thencontinuous fibers were fabricated using wet spinning and hot-drawing. SGONRs provided abundant hydrogen bondinginteraction with PVA chains, so SGONRs could not only obviously improve the dispersibility in PVA, but also enhance themechanical properties of the composites. The tensile strength of PVA/SGONRs composite fibers with 0.4 wt% loading ofSGONRs reach 1032 MPa, improved by 121 % compared with PVA/SWCNTs fiber, and by 200 % with PVA fiber,respectively.
Xia Wang,Changcun Wu,Jun Sun,Chuanxiang Qin,Jianjun Wang,Qiqi Zhuo,Lixing Dai 한국섬유공학회 2020 Fibers and polymers Vol.21 No.5
This study introduces a facile method to prepare syndiotactic poly(vinyl alcohol) (s-PVA) fibers containing singlewalledcarbon nanotubes (SWNTs) from the corresponding composite dispersions with tea polyphenols (TP) as dispersantunder high-speed shear flow. The formation of the composite fibrous precipitates at high shear rate is largely facilitated by theSWNTs in the dispersions and slight flow resistance. Interestingly, the obtained s-PVA/SWNTs composite precipitatespossess a three-level hierarchical structure, that is, a single fiber is assembled by fibrils which are composed of microfibrils ofs-PVA-coated SWNTs. And the s-PVA fibrous precipitates containing high amounts of SWNTs could be obtained by shearingthe dispersion with relatively low SWNTs loadings, as a result, the composite fiber containing 20.7 wt% SWNTs wasprepared from the dispersion with 10.0 wt% SWNTs. In addition, with the increase of SWNTs loadings, the amount of theprecipitates increases, but crystallinity of the precipitates decreases instead.