Enhancing electrochemical performance of nickel nanostructured coatings via ultrasonic-assisted electrodeposition with SiC nanoparticle incorporation

In this study, nickel (Ni) nanostructure coating and Ni/ silicon carbide (SiC) nanocomposite coating were produced by electroplating method under ultrasonically-pulse current on the stainless steel substrate. The presence of SiC nanoparticles in the Ni matrix caused a change in the preferred orientation from the (۲۰۰) plane to the (۱۱۱) plane. The electrochemical impedance spectroscopy (EIS) and potentiodynamic polarization tests were carried out after ۱ h in ۳.۵% NaCl solution. The results of polarization showed that due to the presence of SiC ceramic nanoparticles on the surface of the coating, the corrosion resistance increased by reducing the active metal surface. This was attributed to the neutral nature of the ceramic particles in the corrosive solution. The polarization resistance for the composite coating increased by ۶۱ % compared to pure Ni. Also, the corrosion rate for composite coating compared to pure Ni decreased from ۰.۰۰۵۵ to ۰.۰۱۳ mm/year. Vickers microhardness for the composite sample increased by ۴۵ % compared to pure Ni. The Young's modulus for the composite sample increased by ۴۶%.In this study, nickel (Ni) nanostructure coating and Ni/ silicon carbide (SiC) nanocomposite coating were produced by electroplating method under ultrasonically-pulse current on the stainless steel substrate. The presence of SiC nanoparticles in the Ni matrix caused a change in the preferred orientation from the (۲۰۰) plane to the (۱۱۱) plane. The electrochemical impedance spectroscopy (EIS) and potentiodynamic polarization tests were carried out after ۱ h in ۳.۵% NaCl solution. The results of polarization showed that due to the presence of SiC ceramic nanoparticles on the surface of the coating, the corrosion resistance increased by reducing the active metal surface. This was attributed to the neutral nature of the ceramic particles in the corrosive solution. The polarization resistance for the composite coating increased by ۶۱ % compared to pure Ni. Also, the corrosion rate for composite coating compared to pure Ni decreased from ۰.۰۰۵۵ to ۰.۰۱۳ mm/year. Vickers microhardness for the composite sample increased by ۴۵ % compared to pure Ni. The Young's modulus for the composite sample increased by ۴۶%.