Keyphrases
Pressurized Water Reactor
100%
Temperature Effect
100%
Water Environment
100%
Wear Testing
100%
Sliding Wear
100%
Stellite 6
100%
Scanning Electron Microscopy
66%
Order of Magnitude
66%
Pressurized Water Reactor Environments
66%
Cobalt
66%
Electron Backscatter Diffraction
66%
Primary Circuit
33%
Corrosion Rate
33%
X Ray Diffraction
33%
Room Temperature
33%
Mass Loss
33%
Matrix Phase
33%
Autoclave
33%
Surface Layer
33%
Mass Measurement
33%
Pin-on-disc
33%
Tribocorrosion
33%
Corrosive Environment
33%
X-ray Scanning
33%
Material Removal
33%
Carbide Phase
33%
Microscopy Electron
33%
Profilometry
33%
Material Factor
33%
Transformation Behavior
33%
Subsurface Damage
33%
M7C3 Carbide
33%
Cobalt-based
33%
Wear Mass
33%
Stellite Alloy
33%
Surface Grinding
33%
Co-rich
33%
INIS
simulation
100%
environment
100%
water
100%
wear
100%
pressurized water reactors
100%
stellite 6
100%
surfaces
44%
matrices
33%
testing
33%
cobalt
33%
electrons
22%
scanning electron microscopy
22%
alloys
22%
depth
22%
transformations
22%
fcc lattices
22%
diffraction
22%
hcp lattices
22%
layers
11%
assessments
11%
corrosion
11%
grinding
11%
removal
11%
carbides
11%
damage
11%
x-ray diffraction
11%
apparatus
11%
temperature range 0273-0400 k
11%
valves
11%
mass loss
11%
autoclaves
11%
diffraction (electron)
11%
stellite
11%
Material Science
Cobalt
100%
Sliding Wear
100%
Wear Testing
100%
Stellite
100%
Surface (Surface Science)
100%
Electron Backscatter Diffraction
66%
Scanning Electron Microscopy
66%
Carbide
33%
Electronic Circuit
33%
Surface Damage
33%
X-Ray Diffraction
33%
Tribocorrosion
33%
Corrosion
33%
Engineering
Pressurized Water Reactor
100%
Sliding Wear
100%
Face-Centered Cubic
50%
Pin-on-Disc
25%
Corrosion Rate
25%
Subsurface
25%
Primary Circuit
25%
Mass Loss
25%
Material Removal
25%
Corrosive Environment
25%
Grinding (Machining)
25%
Matrix Phase
25%
Ray Diffraction
25%
Room Temperature
25%
Autoclave
25%
Surface Layers
25%
Hot Isostatic Pressing
25%