Keyphrases
Corrosion
100%
Sulphuric Acid
100%
Acid Environment
100%
Sintering Temperature
100%
Spark Plasma
100%
Superalloy
100%
Elemental Composition
66%
Scanning Electron Microscopy
33%
Ambient Temperature
33%
Passivation
33%
Energy Dispersive X-ray Spectroscopy
33%
Potentiodynamic Polarization Test
33%
Corrosion Rate
33%
X-ray Diffractometry
33%
Passivity
33%
Optical Microscopy
33%
Heating Rate
33%
Densification
33%
Nickel-based Superalloy
33%
Microstructural Analysis
33%
H2SO4 Solution
33%
Sintered Compacts
33%
Spark Plasma Sintering Technique
33%
Optical Scanning
33%
Homogenous Dispersion
33%
Holding Time
33%
Sintered Sample
33%
Corrosion Analysis
33%
Morphological Defects
33%
Phase Analysis
33%
Sintered Density
33%
Elemental Powder
33%
Heating Pressure
33%
Engineering
Elemental Composition
100%
Sintering Temperature
100%
Energy Engineering
50%
Corrosion Rate
50%
Defects
50%
Passivation
50%
Spark Plasma Sintering
50%
Holding Time
50%
Potentiodynamic Polarisation Test
50%
Phase Analysis
50%
Passivity
50%
Heating Rate
50%
Densification
50%
Material Science
Corrosion
100%
Superalloys
100%
Sintering Temperature
66%
Scanning Electron Microscopy
33%
Density
33%
X Ray Diffraction Analysis
33%
Powder
33%
Microstructural Analysis
33%
Spark Plasma Sintering
33%
Nickel-Based Superalloys
33%
Morphology
33%