Surface morphology studies and kinetic-thermodynamic characterization of steels treated in 5.0 M HCl medium: hot-dip galvanizing application

Abstract: Purpose The purpose of this paper is to study the effect of silicon and phosphorus content in steel suitable for galvanizing on its corrosion and inhibitor adsorption processes in steels/cetyltrimethylammonium bromide combined and KI (mixture)/5.0 M hydrochloric acid systems has been studied in relation to the temperature using chemical (weight loss), Tafel polarization, electrochemical impedance spectroscopy (EIS), scanning electronic microscope (SEM) analysis and Optical 3D profilometry characterization. All… Show more

“…where A (Ω −1 s n cm −2 ) is the magnitude of the CPE, ω (rad s −1 ) is the sine wave modulation angular frequency, i 2 = − 1 is the imaginary number and n is an empirical exponent which measures the deviation from the ideal capacitive behavior [38]. Depending on the values of n, CPE can represent resistance (n = 0), capacitance (n = 1), inductance (n = − 1) and Warburg impedance (n = 0.5) [39,40]. The double-layer capacitance values C dl derived from the CPE and the relaxation time constant (τ) of charge transfer process can be calculated using Eqs.…”

New triazepine carboxylate derivatives: correlation between corrosion inhibition property and chemical structure

“…where A (Ω −1 s n cm −2 ) is the magnitude of the CPE, ω (rad s −1 ) is the sine wave modulation angular frequency, i 2 = − 1 is the imaginary number and n is an empirical exponent which measures the deviation from the ideal capacitive behavior [38]. Depending on the values of n, CPE can represent resistance (n = 0), capacitance (n = 1), inductance (n = − 1) and Warburg impedance (n = 0.5) [39,40]. The double-layer capacitance values C dl derived from the CPE and the relaxation time constant (τ) of charge transfer process can be calculated using Eqs.…”

New triazepine carboxylate derivatives: correlation between corrosion inhibition property and chemical structure

Electrochemical and Computational Studies of Some Triazepine Carboxylate Compounds as Acid Corrosion Inhibitors for Mild Steel

Molecular Dynamics, Monte-Carlo Simulations and Atomic Force Microscopy to Study the Interfacial Adsorption Behaviour of Some Triazepine Carboxylate Compounds as Corrosion Inhibitors in Acid Medium