Electrolytic Deposition of Highly Hard Coatings of a Cobalt–Molybdenum Alloy

“…The analysis of the voltammetry graph showed that the working potential range is 650...1100mV and further anodic polarization leads to irreversible oxidation of the solution components. The operating current density is in the range 0.5...4mA/cm 2 [7][8][9][10]. These data indicate that electrochemical generation of antiseptic is an energy-efficient process that does not require significant energy expenditure.…”

Electrochemical Synthesis of Silver-Based Antiseptic

“…The analysis of the voltammetry graph showed that the working potential range is 650...1100mV and further anodic polarization leads to irreversible oxidation of the solution components. The operating current density is in the range 0.5...4mA/cm 2 [7][8][9][10]. These data indicate that electrochemical generation of antiseptic is an energy-efficient process that does not require significant energy expenditure.…”

Electrochemical Synthesis of Silver-Based Antiseptic

“…Zinc‐nickel alloy coatings on steel parts are widely used to protect them from corrosion [1–4]. It is well known that the protective properties of coatings, as well as their electrocatalytic properties, are determined not only by the chemical composition, but also by the structure of the coatings and their phase composition [2, 5–7]. Besides classical «thick» alloy coatings (typically at least of several micrometers thickness), multilayer coatings stacked from sublayers of up to 1 μm thickness are used.…”

Quantitative Analysis of Chemical and Phase Composition of Zn−Ni Alloy Coating by Potentiodynamic Stripping

Corrosion Behavior of AISI 304 Steel in Acid Solutions