Keyphrases
Adiabatic Heating
47%
Alternating Current
13%
Bioactive Glass
14%
Brazilian Disc Test
25%
Confining Pressure
14%
Damage Evolution
11%
Damage Onset
12%
Digital Image Correlation
36%
Dynamic Model
11%
Dynamic Strain Aging
16%
Dynamic Tensile Test
13%
Field Temperature
24%
Full-field Strain
14%
Glass-ceramics
18%
Granitic Rocks
30%
Hashin Criteria
11%
Heat Shock
16%
Heat Treatment
13%
High Strain Rate
62%
High Temperature
15%
Human Heart
15%
In Situ
11%
Infrared Camera
12%
Kuru
18%
Low Strain
29%
Martensite
21%
Martensitic Transformation
16%
Material Model
11%
Mechanical Behavior
27%
Metastable Austenitic Stainless Steel
21%
Microstructure
21%
Microstructure Effect
14%
Natural Fiber Composites
11%
Numerical Modeling
13%
Open Heart Surgery
17%
Oxyfluoride
14%
Phosphate Glass
18%
Plastic Deformation
25%
Right Ventricle
23%
Room Temperature
20%
Silica
20%
Split Hopkinson Pressure Bar
17%
Strain Hardening
15%
Strain Rate
82%
Strain Rate Effect
35%
Surface Crack
11%
Temperature Measurement
15%
Tensile Behavior
11%
Tensile Strength
16%
Thermomechanical Behavior
13%
Engineering
Actuation
9%
Alternating Current
21%
Austenite
16%
Austenitic Stainless Steel
36%
Carbon-Fiber-Reinforced Plastic
9%
Composite Steel
9%
Compressive Loading
11%
Confining Pressure
9%
Damage Evolution
11%
Damage Onset
16%
Deformation Field
16%
Digital Image Correlation
32%
Dynamic Strain Aging
11%
Effect of Strain
28%
Failure Criterion
13%
Failure Mode
9%
Finite Element Analysis
25%
Fractal Dimension
10%
Fracture Behavior
9%
High Strain Rate
63%
Impact Damage
9%
Infrared Camera
15%
Infrared Thermography
10%
Lower Strain Rate
25%
Martensite
16%
Martensite Particle
9%
Material Model
12%
Mechanical Property
33%
Microscale
11%
Natural Fibre Composite
9%
Numerical Modeling
11%
Numerical Study
21%
Piezoelectric
18%
Plastic Deformation
29%
Pure Titanium
9%
Rate Test
10%
Rates of Strain
17%
Rock Fracture
9%
Room Temperature
17%
Silicon Dioxide
18%
Split Hopkinson Pressure Bar
31%
Strain Field
14%
Strain Hardening
13%
Strain Hardening Rate
11%
Strain Rate
100%
Surface Crack
17%
Temperature Distribution
24%
Tensile Loads
22%
Tensiles
20%
Ultimate Tensile Strength
35%