Engineering
Models
100%
Fatigue Property
100%
Numerical Study
100%
Microscale
100%
Interfacial Transition Zone
50%
Cement Paste
50%
Microstructure
33%
Fatigue Performance
33%
Aging
33%
Mesoscale
33%
Multiscale
33%
Stress Level
33%
Environmental Scanning Electron Microscope
16%
Experimental Result
16%
Major Component
16%
Fracture Surface
16%
Small Scale
16%
Multiscale Modeling
16%
Spatial Scale
16%
Fatigue Loading
16%
Fatigue Life
16%
Predictive Capability
16%
Bending Tests
16%
Experimental Technique
16%
Images
16%
Failure (Mechanical)
16%
Aging of Material
16%
Stiffness Degradation
16%
Young's Modulus
16%
Material Science
Cementitious Material
100%
Fatigue Behavior
100%
Damage Evolution
66%
Fatigue Damage
66%
Cement Paste
50%
Materials Structure
50%
Microstructure
33%
Concrete
33%
X-Ray Computed Tomography
33%
Mechanical Strength
16%
Scanning Electron Microscopy
16%
Fracture Behavior
16%
Crack
16%
Fatigue of Materials
16%
Concrete Structure
16%
Stress-Strain Relations
16%
Stiffness
16%
Nanoindentation
16%
Elastic Moduli
16%
Devices
16%
Surface
16%
Characterization
16%
Bending
16%
Heterogeneous Material
16%
INIS
numerical analysis
100%
fatigue
100%
damage
18%
fractures
14%
zones
11%
cements
11%
aging
11%
levels
7%
computerized tomography
7%
testing
7%
microstructure
7%
performance
7%
loading
7%
modeling
7%
increasing
3%
failures
3%
surfaces
3%
precision
3%
sample preparation
3%
mortars
3%
scanning electron microscopy
3%
deformation
3%
simulation
3%
losses
3%
bending
3%
images
3%
devices
3%
strains
3%
stiffness
3%
cracks
3%