An escalation of anticorrosion and microelectrical properties of polyurethane nanocomposites from green Brassica nigra oil

Abstract Brassica nigra oil-based polyurethane composites have been synthesized and characterized by various analytical techniques such as Fourier transform infrared, NMR, X-ray diffraction, scanning electron microscope, atomic force
microscopy, DSC and TGA. Broadband dielectric spectroscopy confirms the improvement in the dielectric properties of the prepared composites (AGO/BNP/ PH) with respect to increasing AGO content. The analytical results conclude that graphene oxide-reinforced Brassica nigra oil-based polyurethane nanocomposites show improved thermal, Tg, dielectric constant and decreased dielectric loss with respect to different ratios of amine-functionalized graphene oxide. Further, the
corrosion resistance behavior analysis results conclude that the prepared bio-com�posites have excellent corrosion-resistant property (96.93%) compared to neat Brassica nigra oil-based polyurethane polymer, which can be used as coating
material for marine and also in microelectronic applications