Keyphrases
Microstructural Evolution
100%
Dynamic Evolution
100%
Thermo-fluid Dynamics
100%
Selective Laser Melting
100%
Mesoscale Models
100%
Particle Distribution
66%
Single Track
66%
Powder Layer Thickness
66%
Thermal Fluid Flow
66%
Reinforced
33%
Surface Structure
33%
Powder Particles
33%
Microstructure
33%
Diffraction Data
33%
Scanning Speed
33%
Electron Backscatter Diffraction
33%
Scanning Electron Microscopy Analysis
33%
Argon Atmosphere
33%
Predictive Ability
33%
Laser Scanning Speed
33%
Irregular Shape
33%
Solidification Process
33%
Interaction Behavior
33%
Modeling Methodology
33%
Powder Bed
33%
Microstructure Modeling
33%
Surface Porosity
33%
Structure Development
33%
Porosity Evolution
33%
Melt Flow
33%
Powder Layer
33%
Powder Size Distribution
33%
Titanium Alloy Powder
33%
Fluid Flow Simulation
33%
Localized Heat
33%
Computational Materials Science
33%
Laser-powder Interaction
33%
Recoil Pressure
33%
Marangoni Force
33%
Engineering
Fluid Dynamics
100%
Microstructural Evolution
100%
Mesoscale
100%
Thermal Fluid
100%
Selective Laser Melting
100%
Powder Layer
100%
Fluid Flow
66%
Layer Thickness
66%
Powder Particle
33%
Porosity
33%
Melting Point
33%
Fluidized Bed
33%
Scanning Speed
33%
Experimental Measurement
33%
Backscattered Electron
33%
Flow Model
33%
Predictive Capability
33%
Solidification Process
33%
Structure Surface
33%
Powder Bed
33%
Interaction Behavior
33%
Melt Flow
33%
Laser Scanning Speed
33%
Marangoni Force
33%
Recoil Pressure
33%
Material Science
Fluid Dynamics
100%
Microstructural Evolution
100%
Selective Laser Melting
100%
Fluid Flow
66%
Scanning Electron Microscopy
33%
Titanium Alloy
33%
Electron Microscopy
33%
Solidification
33%
Surface Structure
33%
Computational Materials Science
33%