CHARACTERIZATION OF THE COMPOSITE COATINGS OF CHITOSAN-TUNGSTEN AND CHITOSAN-MOLYBDENUM OBTAINED BY ELECTROPHORETIC DEPOSITION.
Electrodeposition; Composite coating; Corrosion.
Chitosan is a naturally occurring polysaccharide derived from chitin. It has biocompatible, antibacterial, biodegradable properties, low toxicity, and excellent film formation capacity. Therefore, chitosan-based composite materials or coatings can be applied in different technological and industrial sectors, for example, in the food, cosmetics, textile, biomedicine, and agriculture industries. Due to their mechanical properties and corrosion resistance, the tungsten and molybdenum metals and their compounds can be used to produce materials with superior properties for applications in environments with extreme operational requirements. Thus, based on the intrinsic properties of chitosan and the metals tungsten and molybdenum, two new types of composite coatings of chitosan-tungsten (Chit-W) and chitosan-molybdenum (Chit-Mo), obtained by the electrophoretic deposition process, were characterized in this work to evaluate their possible application for protection of metallic structures against corrosion in a medium containing chloride ions. The results of morphology (SEM), chemical composition (EDX), crystallography (XRD), and spectroscopy in the infrared region (FT-IR) confirmed the deposition of composite coatings consisting of a chitosan film or matrix impregnated with metal nanoparticles (tungsten or molybdenum). The results of corrosion resistance, obtained by potentiodynamic polarization (PP) and electrochemical impedance spectroscopy (EIS) showed that composite coatings improved the corrosion resistance of 1020 steel exposed in corrosive NaCl medium (3.5 %). Therefore, the results presented here prove the achievement of a new class of chitosan-based composite materials with potential application for the protection of metallic structures against corrosion.
PALAVRAS-CHAVE: Eletrodeposição; Revestimento Compósito; Corrosão.