Keyphrases
Irradiation
100%
High Temperature
70%
Alloy 617
66%
Elevated Temperature
53%
Microstructure
53%
Copper Alloy
51%
Neutron-irradiated
48%
Alloy 230
48%
Mechanical Properties
47%
Room Temperature
43%
Dislocation Loops
43%
SS316L
41%
Irradiation Temperature
39%
Structural Materials
39%
Radiation Effects
39%
Creep-fatigue
38%
Ferritic-martensitic Steel
37%
Radiation Damage
35%
Helium
34%
Tensile Test
34%
Fatigue Life
34%
Transmission Electron Microscopy
34%
Reactor
33%
High-temperature Reactor
33%
Microstructural Evolution
32%
Flow Localization
32%
Neutron Irradiation
31%
Radiation-induced Segregation
31%
Yield Strength
30%
Creep
30%
Lattice Strain
29%
Fusion Reactor
29%
ODS Steel
29%
Crack Growth
28%
In Situ
28%
Tensile Properties
28%
Holding Time
28%
Temperature Range
27%
Oxide Dispersion Strengthened Steel
27%
Heavy Ions
26%
In Alloy
25%
Nanoparticles
24%
Grain Boundary
24%
In-situ Synchrotron
23%
Oxide Dispersion Strengthening
23%
Defect Clusters
23%
Uniform Elongation
22%
Thermal Creep
22%
Void Growth
21%
Stainless Steel
21%
Material Science
Creep
83%
Oxide Compound
74%
Density
66%
Copper Alloy
61%
Stainless Steel
58%
Transmission Electron Microscopy
47%
Surface (Surface Science)
47%
Neutron Irradiation
45%
Microstructural Evolution
41%
Nucleation
41%
Building Material
40%
Crack Growth
38%
Ferritic/Martensitic Steel
38%
Ion Bombardment
37%
Grain Boundary
36%
Yield Stress
35%
X-Ray Diffraction
35%
Nanoparticle
34%
Carbide
34%
Cerium Oxide
33%
Fatigue Behavior
31%
Corrosion
30%
Austenitic Stainless Steel
30%
Fatigue of Materials
28%
Electron Backscatter Diffraction
27%
Tensile Property
27%
Aluminum Oxide
26%
Point Defect
26%
Ultimate Tensile Strength
25%
Plastic Deformation
25%
Grain Size
25%
Scanning Electron Microscopy
21%
Thermal Creep
20%
Corrosion Resistance
20%
Finite Element Modeling
20%
Void Growth
18%
Molybdenum
18%
Work Hardening
17%
Lanthanum
16%
Fatigue Crack Growth
16%
Tritium
16%
Crystal Defect
16%
Coarsening
16%
Synchrotron X-Ray Diffraction
16%
Uranium Dioxide
15%
Radiation Damage
15%
Single Crystal
15%
Nickel Alloy
15%
Fracture Behavior
14%
Xenon
13%
Engineering
Creep
96%
Tensiles
64%
Elevated Temperature
54%
Ray Diffraction
47%
Room Temperature
46%
Dislocation Loop
42%
Stainless Steel
39%
Crack Growth
38%
Tensile Property
37%
Yield Point
36%
Ferritic/Martensitic Steel
32%
Structural Materials
31%
Fatigue Life
30%
Temperature Range
30%
Hold Time
29%
Iron
29%
Oxide Dispersion Strengthened
28%
Tensile Test
28%
Fatigue Behavior
28%
Microstructural Evolution
25%
High Temperature Gas Reactors
25%
Strengthened Alloy
22%
Dislocation Density
22%
Fatigue Crack Growth
21%
Crack Growth Rate
20%
Plastic Deformation
20%
Internal Stress
20%
Strain Hardening
20%
Thermal Creep
18%
Nanoparticle
18%
Critical Stress
18%
Crack Growth Behavior
18%
Low-Temperature
17%
Fusion Reactor
17%
Heat Flux
17%
Defect Structure
16%
Cyclic Loading
16%
Phase Stability
16%
Nuclear Fuel
16%
Nuclear Reactor
15%
Fem Model
15%
Fatigue Response
15%
Fast Neutron
15%
Void Growth
15%
Austenitic Stainless Steel
15%
Swelling Behavior
15%
Tensile Deformation
15%
Fatigue Performance
14%
Tritium
14%
Fracture Behavior
14%