The effect of surface roughness on PEO-treated Ti-6Al-4V alloy and corrosion resistance

Keyphrases

• Cavitation 100%
• Scanning Electron Microscopy 100%
• Corrosion Resistance 100%
• Ti-6Al-4V (Ti64) 100%
• Surface Roughness Effect 100%
• Plasma Electrolytic Oxidation 100%
• Ti-6Al-4V Alloy 100%
• Non-porous 50%
• Heterogeneous nucleation 50%
• Argonne National Laboratory 50%
• Oxide Surfaces 50%
• Oxidation Mechanism 50%
• Surface Morphology 50%
• Oxide Layer 50%
• Passivation Effect 50%
• Electron Microscopy Observations 50%
• Low Surface Roughness 50%
• Microdiffraction 50%
• Hank's Solution 50%
• Porous Oxide 50%
• Surface Finish 50%
• Electrochemical Impedance Spectroscopy Analysis 50%
• Oxide Layer Structure 50%
• Ignition Voltage 50%
• Corrosion Passivation 50%
• Porous Structure 50%
• Electrochemical Impedance Spectroscopy 50%
• Corrosion Potential 50%
• Potentiodynamic Polarization 50%
• Polarization Impedance 50%
• Alloy Samples 50%
• Surface Damage 50%
• Gibbs Free Energy 50%

Engineering

• Corrosion Resistance 100%
• Oxide Layer 100%
• Ti-6al-4v 100%
• Ti-6al-4v Alloy 100%
• Surface Oxide 50%
• Passivation 50%
• Layer Structure 50%
• Surface Morphology 50%
• Porous Structure 50%
• Damage Surface 50%
• Heterogeneous Nucleation 50%
• Ignition Voltage 50%
• Alloy Sample 50%
• Gibbs Free Energy 50%

Material Science

• Oxidation Reaction 100%
• Surface Roughness 100%
• Corrosion Resistance 100%
• Ti-6Al-4V 100%
• Oxide Compound 50%
• Scanning Electron Microscopy 50%
• Dielectric Spectroscopy 50%
• Nucleation 25%
• Oxide Surface 25%
• Surface Morphology 25%
• Surface Damage 25%
• Corrosion Potential 25%