Development Of Metal Nanoparticles Composite Coatings For Industrial Applications

Abstract

Metal-nanoparticles composite coatings have emerged as promising materials with newlineunique properties that is possible tailored for a variety of industrial applications. These newlinecomposite coatings have demonstrated improved mechanical, thermal, and electrical newlineproperties, making them attractive alternatives to traditional coatings used in industry [1]. newlineThe objective of the proposed work is to develop metal-nanoparticles composite newlinecoating for different industrial applications with improved performance characteristics. newlineSpecifically, the focus will be on development of Ni-Mo electroplated coating with enhanced newlinecorrosion resistances. Corrosion is a significant issue in many industries, leading to increased newlinecosts, safety concerns, and product failures [2]. Therefore, developing coatings that can newlineprovide better corrosion resistance is of utmost importance in industrial applications. newlineThe proposed work will involve the synthesis and characterization,Nickel-Mo newlinecomposite coatings with varying nanoparticle concentrations using electroplating technique. newlineThe coatings will be characterized using different analytical techniques, such as SEM, XRD, newlineand corrosion resistance testing. The synthesis parameters will be optimized using Design of newlineExperiments (DOE) methodology to achieve the best corrosion resistance performance of the newlinecomposite coatings [3]. newlineThe expected outcome of this study is to develop Ni-Mo composite coatings with newlineenhanced corrosion resistance for industrial applications. The study will contribute to the newlineexisting knowledge to ehnance the improvement of metal-nanoparticles composite coatings newlineand their potential applications in industry [4]. The optimized synthesis parameters can be newlineapplied to other types of composite coatings, leading to further advancements in the newlinedepartment of materials science. The results of this study have the potential to impact newlinedifferent types of industrial sectors, including automotive, aerospace, and electronics, by newlineproviding longer product lifetimes, improved safety, and reduc