Keyphrases
Activation Energy
16%
Activation Volume
23%
Active Slip Systems
10%
Alloy Design
20%
Atomic Stacking
13%
B2 Precipitates
13%
Body-centered Cubic
39%
Calculation of Phase Diagrams (CALPHAD)
16%
Cantor Alloy
40%
Compressive Strength
7%
Creep Behavior
13%
Creep Displacement
13%
Creep Mechanism
20%
Creep Response
43%
Creep Strain
13%
Crystal Orientation
10%
Cubic Matrix
13%
Cubic Phase
10%
Decreasing Trend
13%
Dislocation Behavior
10%
Dislocation Configuration
10%
Dislocation Creep
13%
Dislocation Loops
10%
Dislocation multiplication
10%
Dislocation nucleation
10%
Ductility
5%
Electron Microscopy Characterization
13%
Elevated Temperature
44%
Energy Value
13%
Equilibrium and Non-equilibrium
13%
Face-centered Cubic
40%
Hardness Strength
13%
Heterogeneous nucleation
10%
High Ductility
20%
High Hardness
13%
High Strength
21%
High-entropy Alloy
42%
Incipient Behavior
40%
Incipient Plasticity
10%
Lattice Structure
13%
Loading Effect
40%
Loading Rate
40%
Loading Rate Dependence
10%
Low Density
60%
Medium-entropy Alloy
100%
Micro-nano
20%
Microstructure
14%
Nanoindentation
24%
Nanoindentation Test
10%
Non-equilibrium Modeling
13%
Onset of Yielding
10%
Orientation Effect
40%
Over Load
10%
Peierls Stress
13%
Phase Constituent
13%
Pop-in
40%
Pre-existing Dislocation
10%
Quinary
20%
Room Temperature
17%
Schmid Factor
10%
Single Body
10%
Specific Strength
13%
Structural Materials
13%
System Factors
10%
Temperature Effect
13%
Temperature Range
14%
Ti-6Al-4V Alloy
40%
Ti60
40%
TiAlV
41%
Transmission Electron Microscopy
23%
X-ray Diffractometer
10%
X-ray Transmission
10%
Engineering
Activation Energy
16%
Activation Volume
19%
Alloy Composition
6%
Body-Centered Cubic
41%
Calorific Value
13%
Cast Alloy
6%
Compression Strength
20%
Compressive Strain
6%
Compressive Strength
20%
Creep
60%
Creep Strain
13%
Crystal Structure
8%
Dislocation Creep
13%
Dislocation Loop
8%
Elevated Temperature
46%
Energy Engineering
13%
Face-Centered Cubic
46%
Heterogeneous Nucleation
8%
High-Entropy Alloys
42%
Loading Plane
8%
Loading Rate
40%
Melting Point
8%
Microstructure Evolution
8%
Nonequilibrium
13%
Peierls Stress
13%
Quenching Oil
6%
Rate Dependence
8%
Room Temperature
17%
Schmids Factor
8%
Slip System
8%
Strain Rate
13%
Structural Materials
13%
Temperature Dependence
13%
Temperature Range
14%
Ti-6al-4v Alloy
40%
Material Science
Activation Energy
16%
Building Material
13%
Compressive Strength
7%
Creep
60%
Creep Property
13%
Crystal Structure
20%
Crystal Structure
13%
Density
82%
Dislocation Creep
13%
High Entropy Alloys
62%
Medium-Entropy Alloy
100%
Nanoindentation
54%
Nucleation
20%
Strain Rate
13%
Ti-6Al-4V
40%
Transmission Electron Microscopy
33%