Engineering
Selective Laser Melting
100%
Based Powder Bed Fusion Process
100%
Melt Pool
50%
Thermal Model
33%
Selective Laser Melting Process
33%
Powder Layer
33%
Numerical Model
33%
Mechanical Model
16%
Conductive
16%
Thermal Gradient
16%
Manufacturing Process
16%
Cooling Rate
16%
Porosity
16%
Spherical Particle
16%
Process Time
16%
Microstructure
16%
Experimental Measurement
16%
Production Method
16%
Final Part
16%
Mesoscale
16%
Computational Time
16%
Fluid Model
16%
Drag Force
16%
Thermal History
16%
Growth Velocity
16%
Molten Metal
16%
Additive Manufacturing Technique
16%
Conventional Manufacturing Process
16%
Laser Material Interaction
16%
Input Heat
16%
Building Platform
16%
Marangoni Effect
16%
Spot Size
16%
Heat Source
16%
Numerical Modeling
16%
Fluid Flow
16%
Heat Flux
16%
Material Science
Selective Laser Melting
100%
Powder Bed Fusion
100%
Solidification
87%
Powder
25%
Laser Material
12%
Three Dimensional Printing
12%
Liquid Metal
12%
Fluid Flow
12%
Titanium Alloys
12%
Keyphrases
Laser Powder Bed Fusion (L-PBF)
100%
Powder Bed Fusion Process
100%
Morphology Factor
12%
Coating Mechanism
12%
Thermo-fluid Model
12%
Solidification Cooling Rate
12%
Enthalpy-porosity Method
12%