Keyphrases
High Strength
100%
Medium-entropy Alloy
100%
High-entropy Alloy
66%
Dual Phase
62%
High Compression
62%
Mn(V)
50%
Al-Ti-Cr
50%
Mechanical Response
50%
Superplasticity
50%
Cr-Mn
50%
High Ductility
50%
Spinodal Decomposition
50%
Compression Strength
41%
Body-centered Cubic
41%
Ductility
37%
Tensile Strength
33%
Cubic Phase
29%
Body-centered Cubic Structure
29%
Mechanical Properties
29%
Alloying System
25%
Dendrite
25%
Quaternary Alloy Systems
16%
Compression Yield Strength
16%
Vacuum Arc Melting
16%
Ti65 Alloy
16%
Compression Fracture
16%
Room Temperature
16%
Energy Consumption Reduction
16%
Transportation Vehicle
16%
Compressive Plasticity
16%
Structural Materials
16%
Rapid Cooling
16%
Homogenization Treatment
16%
Single Body
16%
Alloy Design
16%
Fracture Strength
16%
Tensile Elongation
16%
Ti Alloy
16%
Calculation of Phase Diagrams (CALPHAD)
16%
V Alloys
12%
Strengthening Contribution
12%
Spinodal Structure
12%
Cubic Morphology
12%
Energy Industry
12%
Face-centered Cubic
12%
As-cast
12%
Transportation Industry
12%
TiZr
12%
Microstructure
12%
Compression Test
12%
Compressive Strength
12%
Drop-casting
12%
Microstructure Properties
12%
Arc Melting
12%
As-cast Alloy
12%
Uniformly Distributed
12%
Face-centered Cubic Phase
12%
Interconnected Structure
12%
Water Quenching
12%
Engineering
Body-Centered Cubic
100%
High-Entropy Alloys
75%
Centered Cubic Structure
75%
Mechanical Response
50%
Ultimate Tensile Strength
50%
Cast Alloy
50%
Rapid Cooling
25%
Simulation Result
25%
Energy Engineering
25%
Quaternary Alloy
25%
Tensiles
25%
Structural Materials
25%
Alloy System
25%
Room Temperature
25%
Fracture Strength
25%
Yield Point
25%
Melting Point
25%
Material Science
Medium-Entropy Alloy
100%
Homogenization
75%
High Entropy Alloys
75%
Cast Alloy
50%
Ultimate Tensile Strength
50%
Density
50%
Fracture Toughness
25%
Building Material
25%
Yield Stress
25%
Compressive Strength
25%