Abstract
This paper evaluates the effect of adding glycerol to the electrodeposition bath on the deposition efficiency and characteristics of Ni-Mo coating in concentrations ranging from 0.07 to 0.82 mol.L-1. Evaluation of the corrosion resistance was performed by means of weight loss tests in four different periods of immersion. Electrochemical techniques, such as obtaining polarization curves, linear polarization resistance, corrosion current density, corrosion potential, and electrochemical impedance spectroscopy were applied. Corrosion measurements were obtained in 0.5 mol.L-1 NaCl acid solution and 0.5 mol.L-1 NaOH alkaline solution. The morphology and microstructures of electrodeposited were analyzed using Scanning Electron Microscopy and Spectrometry X-Ray Diffraction. The effect of glycerol on Ni-Mo hardness was evaluated by Vickers microhardness measurements. The presence of glycerol in the electrodeposition bath increased the grain size and decreased the hardness of the coating. However, it promoted the formation of a more compact and less porous coating, increasing the corrosion resistance of the coating. Moreover, the addition of 0.82 mol.L-1 glycerol increases current efficiency, thereby reducing the amount of energy consumed during electroplating.
Highlights
Nickel coatings obtained by electroplating are mainly used in decorative applications
It is observed that in the coatings obtained in the presence of glycerol, the region of the coating surface formed by more uniform grains becomes broader with the increase in the amount of glycerol
The corrosion resistance of the Ni-Mo coating in the 0.5 mol.L-1 NaCl acid solution and in the 0.5 mol.L-1 NaOH alkaline solution was found to increase with the addition of glycerol in bath electrodeposition, and this effect was found to be more intense with increasing glycerol concentration (0.07, 0.27 and 0.82 mol.L-1)
Summary
Nickel coatings obtained by electroplating are mainly used in decorative applications. They are used in applications where corrosion resistance and / or abrasion wear is important, such as in coating bolts and brake components. The addition of Mo to Ni significantly increases corrosion resistance, hardness and wear resistance making it promising to use Ni-Mo coating in place of hard chrome coating[1,2,3]. In addition to high thermal stability, high hardness, wear resistance and corrosion resistance, Ni-Mo coating is an environmentally friendly alternative to hard chrome[4]. Ni-Mo coating has low overpotential for the hydrogen evolution reaction which makes it possible to use this coating as a cathode for hydrogen production reaction[5,6,7,8]
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