Engineering
Additive Manufacturing
100%
High-Entropy Alloys
100%
Laser Engineered Net Shaping
100%
Microstructure
100%
Length Scale
50%
Face-Centered Cubic
50%
Tensiles
50%
Recovery Rate
50%
Ray Diffraction
50%
Strain Hardening
50%
Deformation Process
50%
Columnar Grain
50%
Disordered Phase
50%
Phase Formation
50%
Centered Cubic Structure
50%
Tensile Loads
50%
Engineering Application
50%
Tensile Yield Strength
50%
Dislocation Dynamics
50%
Tensile Deformation
50%
Solidification Simulation
50%
Dislocation Substructure
50%
Keyphrases
Dislocation
100%
Additive Manufacturing
100%
Laser Engineered Net Shaping (LENS™)
100%
High-entropy Alloy
100%
CrMnFeCoNi
100%
LENSTM
83%
Tensile Behavior
16%
Engineering Application
16%
Microstructure
16%
High Performance
16%
X Ray Diffraction
16%
Substructure
16%
Tensile Elongation
16%
Annealing
16%
Deformation Process
16%
As-deposited
16%
Recovery Rate
16%
Tensile Deformation
16%
Columnar Grain
16%
Solidification Conditions
16%
Phase Formation
16%
Work Hardening Rate
16%
Dislocation Behavior
16%
Deformation Twinning
16%
Microstructure Behavior
16%
Multiple Length Scales
16%
Face-centered Cubic Structure
16%
Equiatomic
16%
Dislocation Strengthening
16%
Dislocation Recovery
16%
Dislocation Substructure
16%
Dynamic Dislocations
16%
Tensile Yield Strength
16%
Scheil's Solidification Simulation
16%
Material Science
Three Dimensional Printing
100%
Solidification
100%
High Entropy Alloys
100%
Work Hardening
33%
Yield Stress
33%
Tensile Loads
33%
Dislocation Dynamics
33%
X-Ray Diffraction
33%