Engineering
Creep
100%
Constitutive Law
22%
Pressure Vessel
22%
Failure (Mechanical)
22%
Microstructure
11%
Two Dimensional
11%
Operating Temperature
11%
Mathematical Model
11%
Size Effect
11%
Failure Load
11%
Dilatancy
11%
Intrinsic Time
11%
Shrinkage
11%
Temperature Gradient
11%
Nonuniformity
11%
Strain Localization
11%
Tangent Modulus
11%
Moisture Diffusion
11%
Random Process
11%
Safety Analysis
11%
Development
11%
Design
11%
Prediction
11%
Models
11%
Thickness
11%
High Stress
11%
INIS
creep
44%
failures
33%
strains
22%
containment
22%
design
11%
size
11%
thermodynamics
11%
prediction
11%
walls
11%
mathematical models
11%
damage
11%
microstructure
11%
diffusion
11%
randomness
11%
approximations
11%
finite element method
11%
shrinkage
11%
heat
11%
moisture
11%
cracking
11%
thickness
11%
nuclear reactors
11%
temperature gradients
11%
ductility
11%
safety analysis
11%
pressure vessels
11%
dilatancy
11%
Physics
Containment
22%
Failure
22%
Microstructure
11%
Shrinkage
11%
Ductility
11%
Operating Temperature
11%
Random Processes
11%
Nuclear Reactor
11%
Creep Analysis
11%
Safety Analysis
11%
Irreversible Thermodynamics
11%
Model
11%
Heat
11%
Cracking (Fracture)
11%
Concrete
11%
Temperature Gradients
11%
Nonuniformity
11%
Material Science
Strain
33%
Finite Element Modeling
33%
Material
11%
Mechanical Strength
11%
Shrinkage
11%
Concrete
11%
Ductility
11%