INIS
modeling
100%
solidification
77%
microstructure
71%
lasers
56%
simulation
47%
melting
39%
interfaces
38%
performance
33%
alloys
29%
solutes
29%
plasticity
28%
design
28%
crystals
25%
residual stresses
24%
powders
23%
metals
22%
manufacturing
21%
carbon
20%
kinetics
19%
tools
19%
steels
17%
fatigue
16%
additives
16%
tungsten carbides
15%
trapping
15%
comparative evaluations
14%
cracking
14%
levels
14%
crystal field
14%
growth
13%
defects
13%
polycrystals
13%
length
12%
segregation
12%
applications
12%
solids
12%
superalloys
11%
tracks
11%
stainless steel-316l
11%
dislocations
11%
mapping
11%
solutions
10%
velocity
10%
crystal defects
10%
thin films
10%
precursor
10%
hydrogels
10%
Keyphrases
Phase-field Model
47%
Rapid Solidification
43%
Microstructure
38%
Selective Laser Melting
36%
Crystal Plasticity
33%
Residual Stress
26%
Phase Field Crystal
20%
Process-structure-property Relationship
18%
Micromechanical Modeling
18%
Solute Trapping
17%
Laser Powder Bed Fusion (L-PBF)
14%
Additive Manufacturing
14%
Quantitative Phase
12%
Single Track
12%
Phase Field
11%
Metal Additive Manufacturing
10%
Multiscale Material Modeling
10%
Carbon Tool Steel
10%
WC-Co
10%
SS316L
10%
Cellular Microstructure
10%
Effective Interface Model
10%
Superalloy
10%
3D Printing
10%
Crystal Defects
10%
Pure Aluminum
10%
Multiscale Modeling
10%
Engineering
Phase Field
57%
Selective Laser Melting
34%
Residual Stress
24%
Additive Manufacturing
17%
Multiscale
15%
Length Scale
13%
Field Model
13%
Crystal Plasticity Model
13%
Stainless Steel
13%
Powder Bed Fusion
12%
Process Structure
11%
Melt Pool
10%
Micromechanical Modeling
10%
Tool Steel
10%
Modern Composite Material
10%
Scale Model
10%
Composite Material
10%
Computational Fluid Dynamics
10%