Electrochemical hydrogenation and corrosion studies of Ti-48Al-2Cr-2Nb alloy in acidic solution

Keyphrases

• Scanning Electron Microscopy 100%
• Acidic Solution 100%
• X Ray Diffraction 100%
• Auger Electron Spectroscopy 100%
• Charging Time 100%
• Corrosion Study 100%
• Cathodic Charging 100%
• Electrochemical Corrosion 100%
• Ti48Al2Nb2Cr Alloy 100%
• Electrochemical Hydrogenation 100%
• Vickers Hardness 50%
• Surface Erosion 50%
• Energy Dispersive X-ray Spectroscopy 50%
• Current Density 50%
• Room Temperature 50%
• Charge Density 50%
• Design Methodology 50%
• Microcracks 50%
• Change in Weight 50%
• High Current Density 50%
• Nanocrystalline 50%
• Polarization Process 50%
• Surface Zone 50%
• Hydrochloric Acid 50%
• Electron Beam Scanning 50%
• Phase Transformation 50%
• Alloying Elements 50%
• Microcrystalline 50%
• Surface Corrosion 50%
• Composition Fluctuations 50%
• Corrosion Behavior 50%
• Embrittlement 50%
• TiAl Alloy 50%
• Charging Behavior 50%
• Hardness Values 50%
• Acid Environment 50%
• HCl Solution 50%
• Cathodic Corrosion 50%
• Hydrochloric Acid Solution 50%
• Microbalance 50%
• H-current 50%
• Passive Movement 50%

Engineering

• Ray Diffraction 100%
• Hydrochloric Acid 100%
• Hydrogenation 100%
• Charging Time 100%
• Corrosion Study 100%
• Vickers 50%
• Energy Engineering 50%
• Surface Erosion 50%
• Nanocrystalline 50%
• Room Temperature 50%
• Surface Region 50%
• Acid Solution 50%
• Alloying Element 50%
• High Current Density 50%
• Microcrystalline 50%
• Corrosion Behavior 50%
• Embrittlement 50%
• Hardness Value 50%
• Surface Corrosion 50%

Material Science

• Density 100%
• Corrosion 100%
• Energy-Dispersive X-Ray Spectroscopy 100%
• Hydrogenation 100%
• Scanning Electron Microscopy 66%
• X-Ray Diffraction 66%
• Auger Electron Spectroscopy 66%
• Nanocrystalline 33%
• Alloying 33%
• Vickers Hardness 33%
• Embrittlement 33%
• Pitting Corrosion 33%