Tuning of shear thickening behavior and elastic strength of polyvinylidene fluoride via doping of ZnO‐graphene
ZnO rice like nonarchitects are grafted on the graphene carbon core via a rapid microwave synthesis route. The prepared grafted systems are characterized via XRD, SEM, RAMAN, and XPS to examined the structural and morphological parameters. Zinc oxide grafted graphene sheets (ZnO‐G) are further doped...
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Veröffentlicht in: | Journal of applied polymer science 2021-11, Vol.138 (43), p.n/a, Article 51260 |
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Sprache: | eng |
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Zusammenfassung: | ZnO rice like nonarchitects are grafted on the graphene carbon core via a rapid microwave synthesis route. The prepared grafted systems are characterized via XRD, SEM, RAMAN, and XPS to examined the structural and morphological parameters. Zinc oxide grafted graphene sheets (ZnO‐G) are further doped in β‐phase of polyvinylidene fluoride (PVDF) to prepare the polymer nanocomposites (PNCs) via mixed solvent approach (THF/DMF). β‐phase confirmation of PVDF PNCs is done by FTIR studies. It is observed that ZnO‐G filler enhances the β‐phase content in the PNCs. Non‐doped PVDF and PNCs are further studied for rheological behavior under the shear rate of 1–100 s−1. Doping of ZnO‐G dopant to the PVDF matrix changes its discontinuous shear thickening (DST) behavior to continues shear thickening behavior (CST). Hydrocluster formation and their interaction with the dopant could be the reason for this striking DST to CST behavioral change. Strain amplitude sweep (10−3% ‐10%) oscillatory test reveals that the PNCs shows extended linear viscoelastic region with high elastic modulus and lower viscous modulus. Effective shear thickening behavior and strong elastic strength of these PNCs present their candidature for various fields including mechanical and soft body armor applications.
A simple and rapid microwave synthesis technique has been explored in this work to graft ZnO on the graphene carbon core. Further, these grafted materials are doped in the PVDF to prepare nanocomposites. Prepared nanocomposites exhibit continuous shear thickening behaviour (CST), extended linear viscoelastic region (LVER), high elastic modulus and lower viscous modulus. These nanocomposites are best suited for mechanical and soft body armour applications. |
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ISSN: | 0021-8995 1097-4628 |
DOI: | 10.1002/app.51260 |