INIS
aging
38%
alloys
100%
annealing
20%
applications
19%
assessments
11%
austenitic steels
15%
bwr type reactors
10%
comparative evaluations
25%
copper
18%
corrosion
46%
coverings
10%
cracking
38%
cracks
15%
data
26%
defects
11%
electrochemistry
33%
electrodes
13%
energy
10%
environment
34%
evaluation
14%
fatigue
27%
films
10%
fracture toughness
17%
fractures
33%
hardness
11%
heat treatments
28%
high temperature
33%
hot isostatic pressing
14%
impedance
15%
increasing
13%
interactions
15%
interfaces
15%
investigations
11%
ions
10%
irradiation
19%
kinetics
11%
laboratories
16%
lasers
50%
layers
19%
loading
10%
manufacturing
21%
matrices
11%
mechanical properties
24%
metals
50%
microstructure
70%
modeling
14%
monitoring
10%
nickel
16%
nuclear power plants
25%
operation
15%
oxides
22%
passivation
13%
performance
15%
ph value
10%
powders
60%
pressure vessels
26%
pressurized water reactors
32%
reactors
29%
safety
17%
simulation
24%
solutions
34%
spectroscopy
13%
stainless steel-316l
39%
stainless steels
23%
steam generators
14%
steels
10%
stress corrosion
21%
sulfides
18%
surfaces
49%
testing
21%
voltametry
10%
water
52%
welds
70%
zones
11%
Keyphrases
Additive Manufacturing
18%
Alloy 52
32%
Alloy 690
10%
Annealing
10%
Austenitic Stainless Steel
13%
Boiling Water Reactor
10%
Corrosion
13%
Corrosion Behavior
10%
Cracking Behavior
13%
Dissimilar Weld
31%
Environmental Fatigue
18%
Fatigue Assessment
10%
Fracture Properties
11%
Fracture Toughness
13%
Fusion Boundary
20%
Heat Treatment
16%
High Temperature Water
19%
High-Ni
10%
Hot Isostatic Pressing
15%
Laboratory Component
10%
Laboratory Data
11%
Laser Powder Bed
18%
Laser Powder Bed Fusion (L-PBF)
39%
Localized Corrosion
10%
Mechanical Properties
19%
Mechanistic Understanding
15%
Microstructure
32%
Microstructure Properties
12%
Narrow Gap
16%
Ni-based Alloy
13%
Pressurized Water Reactor
18%
Pressurized Water Reactor Primary Water
16%
Reactor Pressure Vessel
21%
SA508
19%
Solution Annealing
10%
SS316L
32%
Stainless Steel
12%
Stress Corrosion Cracking
13%
Stress Corrosion Resistance
10%
Sulfide
13%
Thermal Aging
26%
Weld Metal
15%
Engineering
Austenitic Stainless Steel
17%
Base Alloy
14%
Boiling Water Reactor
13%
Brittle Fracture
16%
Corrosion Behavior
10%
Cracking Behavior
13%
Dissimilar Metal
27%
Fatigue Assessment
10%
Fracture Initiation
11%
Fracture Strength
17%
Fusion Boundary
12%
Heat Treatment
15%
High Strength Steels
11%
Hot Isostatic Pressing
14%
Light Water Reactors
10%
Narrow Gap
11%
Nuclear Power Plant
29%
Powder Bed
18%
Powder Bed Fusion
23%
Pressurized Water Reactor
35%
Primary Water
15%
Reactor Pressure Vessel
29%
Reference Temperature
10%
Stainless Steel
50%
Stress Corrosion Cracking
24%
Surface Condition
10%
Temperature Water
19%
Tensile Test
11%
Tested Specimen
11%