Keyphrases
In-situ Test
100%
Reactor Materials
100%
Scanning Electron Microscope
60%
Thermal Fatigue
60%
High-temperature Reactor
50%
In-situ Scanning Electron Microscope
40%
Damage Mechanism
40%
Micro-mechanism
30%
Loading Conditions
30%
Creep Damage
30%
Thermo-mechanical Creep
30%
Analytical Instrumentation
20%
Fatigue Damage
20%
Failure Mechanism
20%
Creep-fatigue
20%
Uniaxial
20%
State Universities
15%
Irradiated Materials
10%
Microstructure Evolution
10%
Dwell Period
10%
Axial-torsional Loading
10%
Creep-fatigue Loading
10%
User Facility
10%
Fatigue Deformation
10%
Program Goals
10%
Multi-axial
10%
Pressure Loading
10%
Tubular Specimen
10%
Elevated Temperature
10%
Damage Development
10%
Miniature Specimen
10%
Microstructure Mechanism
10%
Axial Torsion
10%
Fatigue Mechanism
10%
Internal Pressure
10%
Failure Criterion
10%
Fatigue Testing
10%
Material Properties
10%
ASME Code
10%
Material Failure
10%
Testing System
10%
Nuclear Materials
10%
Microstructure Properties
5%
Nuclear Science
5%
Material Characterization
5%
In Situ
5%
Engineering
High Temperature Gas Reactors
100%
In-Situ Testing
100%
Scanning Electron Microscope
100%
Damage Mechanism
40%
Mechanical Creep
30%
Failure Mechanism
30%
Micromechanisms
30%
Creep
30%
Loading Condition
30%
Fatigue Damage
20%
Irradiated Material
10%
Damage Development
10%
Fatigue Testing
10%
Fatigue Deformation
10%
Elevated Temperature
10%
Microstructure
10%
Nuclear Material
10%
Dwell Period
10%
Property Relationship
10%
Fatigue Loading
10%
Situ Test
10%
Internal Pressure
10%
Mm Diameter
10%
Failure Criterion
10%
Research Need
10%
Isothermal
10%
Fatigue Failure
10%
Microstructure Evolution
10%
Transients
5%
Research Project
5%
Tasks
5%