Degradation mechanisms of magnesia-carbon refractories in radiation heat-affected wall of steel electric arc furnace

Keyphrases

• Degradation Mechanism 100%
• Electric Arc Furnace 100%
• Heat Affected 100%
• Radiation Heat 100%
• Porous Network 100%
• Magnesia-carbon Refractories 100%
• MgO-C Refractories 100%
• Coefficient of Thermal Expansion 50%
• Degradation Process 50%
• Performance Enhancement 50%
• X-ray Computed Tomography (X-CT) 50%
• Microstructural Evolution 50%
• Strong Correlation 50%
• Damage Evolution 50%
• Thermally Activated Processes 50%
• Failure Mechanism 50%
• Mechanical Degradation 50%
• Scanning Electron Microscopy/energy Dispersive Spectroscopy 50%
• X-ray Scanning 50%
• Chemical Degradation 50%
• Crack Formation 50%
• Physical Degradation 50%
• Grain Size Evolution 50%
• Large Grain 50%
• Carbon Matrix 50%
• Refractory Design 50%
• Service Life Performance 50%
• Microstructural Deterioration 50%
• Carbon Oxidation 50%
• Oxygen Ingress 50%
• Grain Damage 50%

Material Science

• Magnesium Oxide 100%
• Grain Size 16%
• Scanning Electron Microscopy 16%
• Thermal Expansion 16%
• Microstructural Evolution 16%
• Tomography 16%
• Damage Evolution 16%
• Mechanical Degradation 16%
• Chemical Degradation 16%
• Crack Formation 16%
• Failure Mechanism 16%