INIS
additives
10%
alloys
40%
anisotropy
16%
applications
25%
austenitic steels
15%
carbon
12%
cellulose
10%
coatings
27%
comparative evaluations
17%
cracking
12%
crystals
48%
damage
13%
data
15%
deformation
34%
density
13%
design
34%
dislocations
15%
entropy
11%
environment
10%
erosion
15%
fatigue
12%
finite element method
10%
fracture toughness
10%
fractures
18%
hardening
10%
heat treatments
14%
high temperature
10%
interactions
12%
kinetics
11%
lasers
29%
levels
20%
loading
20%
manufacturing
12%
martensitic steels
12%
mechanical properties
18%
melting
13%
metals
21%
microstructure
79%
modeling
100%
nanostructures
11%
orientation
13%
particles
12%
performance
37%
phase transformations
10%
plasticity
65%
polycrystals
24%
powders
16%
residual stresses
22%
segregation
15%
simulation
60%
size
13%
solidification
38%
solids
13%
solutes
12%
spray coating
10%
steels
38%
strains
29%
surfaces
17%
texture
11%
tools
25%
velocity
10%
volume
10%
water
10%
wear
14%
wear resistance
10%
welds
10%
Keyphrases
Additive Manufacturing
15%
Calculation of Phase Diagrams (CALPHAD)
12%
Circular Economy
10%
Crystal Plasticity
61%
Heat Treatment
10%
Laser Powder Bed Fusion (L-PBF)
19%
Mechanical Properties
15%
Microfibrils
10%
Micromechanical Modeling
37%
Micromechanics
14%
Microstructure
35%
Modeling Approach
10%
Multiscale Modeling
10%
Phase Field Crystal
13%
Phase-field Model
18%
Polycrystal
13%
Rapid Solidification
25%
Residual Stress
22%
Selective Laser Melting
10%
Engineering
Additive Manufacturing
11%
Brittle Fracture
11%
Crystal Plasticity Model
20%
Dislocation Density
11%
Energy Engineering
15%
Fracture Strength
10%
Heat Treatment
10%
Length Scale
10%
Micromechanical Modeling
25%
Microscale
11%
Phase Field
22%
Polycrystal
11%
Polycrystalline
13%
Powder Bed Fusion
13%
Residual Stress
21%
Strain Gradient
10%
Strain Hardening
13%