INIS
surfaces
100%
powders
100%
lasers
100%
alloys
100%
energy deposition
100%
texture
100%
nasa
100%
walls
100%
manufacturing
36%
design
27%
heat exchangers
27%
roughness
18%
applications
18%
pressure drop
18%
additives
18%
exchange (heat)
9%
sensitivity
9%
power
9%
friction factor
9%
fluid flow
9%
reduction
9%
geometry
9%
evaluation
9%
travel
9%
layers
9%
speed
9%
comparative evaluations
9%
shape
9%
height
9%
heat transfer
9%
density
9%
volume
9%
pools
9%
performance
9%
Engineering
NASA
100%
Energy Engineering
100%
Heat Exchanger
42%
Design of Experiments
28%
Experiments
28%
Gas Fuel Manufacture
28%
Outer Surface
14%
Friction Factor
14%
Finer Powder
14%
Travel Speed
14%
Heat Transfer
14%
Limitations
14%
Laser Power
14%
High Density
14%
High Volume
14%
Fluid Flow
14%
Melt Pool
14%
Industrial Applications
14%
Quantification
14%
Determines
14%
Recirculation
14%
Additive Manufacturing Process
14%
Aerospace Applications
14%
Design
14%
Directional
14%
Additive Manufacturing
14%
Heat Exchange
14%
High Sensitivity
14%
Internals
14%
Deposition Parameter
14%
Feedstock Powder
14%
Reduction
14%
Material Science
Laser
100%
Surface Texture
100%
Directed Energy Deposition
100%
Powder
100%
Characterization
100%
Three Dimensional Printing
18%
Surface Roughness
18%
Experimental Design
18%
Friction
9%
Density
9%