Effect of Phosphorus on the Corrosion Resistance of Nickel Electrocoatings

B. Łosiewicz; Magdalena Popczyk; Magdalena Szklarska; Patrycja Osak

doi:10.4028/www.scientific.net/SSP.228.310

Paper Titles

Effect of Molybdenum Powder Granulation on Electrochemical Properties of Ni+Mo Composite Coatings
p.288

Influence of Surface Development of Ni/W Coatings on the Kinetics of the Electrolytic Hydrogen Evolution
p.293

Electrochemical Characterization of Nickel-Phosphorus Based Coatings Containing Cobalt
p.299

Influence of Thermal Treatment on the Electrochemical Properties of Ni+W+Mo+Si Composite Coatings in an Alkaline Solution
p.305

Effect of Phosphorus on the Corrosion Resistance of Nickel Electrocoatings
p.310

A Coulometric Method by Local Anodic Dissolution for Measuring the Thickness of Ni/Cu Multi-Layer Electrocoatings
p.319

Quantitative Methods Used to Describe the Structure of Iron
p.325

On Problems of Determination of the Kinetics of Hydrogen Electroevolution Reaction
p.333

In Situ Structure-Sensitive Studies of Metal-Hydrogen Interactions by Scanning Kelvin Probe
p.344

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Effect of Phosphorus on the Corrosion Resistance of Nickel Electrocoatings

Abstract:

The electrodeposited Ni-P coatings are commonly used for their electrocatalytic properties towards hydrogen evolution reaction. However, their corrosion resistance in concentrated alkaline solutions is still less known. In this work, the effect of phosphorus on the resistance of nickel electrodeposits to electrochemical corrosion in 5 M KOH solution, was studied. Open circuit potential and anodic polarization measurements were performed to determine parameters of the corrosion resistance of the crystalline Ni deposit and amorphous Ni-P electrocoating. It was found that alloying of nickel with phosphorus is the effective manner of the improvement of the corrosion resistance of the nickel coatings. The obtained Ni-P electrode material contained 10 wt.% of P and revealed amorphous structure. The increase in the corrosion resistance of the Ni₉₀P₁₀ system as compared to that determined for comparable Ni polycrystalline electrode was due to phosphate formation responsible for broad passivation potential in alkaline medium and amorphous structure.