Engineering
Forming
100%
Alloy
100%
Combined Effect
100%
Temperature
100%
Gas Turbine
100%
Temperature Gradient
50%
Hydrogen Embrittlement
50%
Temperature Region
50%
Stress Concentration
50%
Blade Turbine
50%
Dislocation
50%
Low-Temperature
50%
Temperature Stress
25%
Cooling Hole
25%
Service Condition
25%
Notched Specimen
25%
Finite Element Method
25%
Metallic Component
25%
Lattice Site
25%
Plastic Strain
25%
Temperature Distribution
25%
Cooling Channel
25%
Temperature Field
25%
Renewable Energy
25%
Hydrogen Distribution
25%
Tensile Loads
25%
High Concentration
25%
INIS
gas turbines
100%
diffusion
100%
alloys
100%
hydrogen
100%
hydrides
100%
concentration
55%
hydrogen embrittlement
22%
low temperature
22%
temperature gradients
22%
dislocations
22%
turbine blades
22%
traps
11%
levels
11%
finite element method
11%
cooling
11%
accounting
11%
distribution
11%
temperature distribution
11%
transport
11%
plastics
11%
holes
11%
transport theory
11%
steady-state conditions
11%
renewable energy sources
11%
strains
11%
trapping
11%
Material Science
Temperature
100%
Hydride
100%
Gas
100%
Alloy
100%
Dislocation
22%
Stress Concentration
22%
Hydrogen Embrittlement
22%
Tensile Loads
11%
Finite Element Method
11%
Plastics
11%
Keyphrases
Lattice Dislocations
33%
Alloy 690
33%