Effect of frequency on plasma electrolytic oxidation of zirconium in pulsed unipolar mode

Abstract: Using the method of in situ impedance spectroscopy, an optimization of plasma electrolytic oxidation (PEO) was performed, and the influence of the pulse frequency was evaluated for the coating of Zr-1Nb alloy. It was shown that the in situ impedance modulus decreased with increasing the pulse frequency in a pulsed unipolar mode. Also, the protective properties of the coating improved with frequency; this was attributed to the increase in the uniform distribution of the microdischarges over the sample surface. … Show more

“…The smallest currents of corrosion and passivation were noted for coatings formed in a silicate-pyrophosphate-alkaline electrolyte. In [31], the effect of the voltage pulse frequency during PEO on the characteristics of coatings formed on zirconium for 10 min was investigated. Increasing the frequency led to decreasing porosity and corrosion currents, which were explained by a more uniform distribution of microdischarges over the being-treated surface during PEO.…”

Study of Coatings Formed on Zirconium Alloy by Plasma Electrolytic Oxidation in Electrolyte with Submicron Yttria Powder Additives

“…The smallest currents of corrosion and passivation were noted for coatings formed in a silicate-pyrophosphate-alkaline electrolyte. In [31], the effect of the voltage pulse frequency during PEO on the characteristics of coatings formed on zirconium for 10 min was investigated. Increasing the frequency led to decreasing porosity and corrosion currents, which were explained by a more uniform distribution of microdischarges over the being-treated surface during PEO.…”

Study of Coatings Formed on Zirconium Alloy by Plasma Electrolytic Oxidation in Electrolyte with Submicron Yttria Powder Additives