Engineering & Materials Science
Coalescence
21%
Creep
15%
Crystal orientation
51%
Crystals
55%
Fatigue of materials
12%
Finite element method
11%
Gases
10%
High strength alloys
24%
Metals
11%
Microstructure
12%
Nucleation
19%
Oils
11%
Phase boundaries
76%
Phase interfaces
27%
Plasticity
52%
Porosity
31%
Single crystals
21%
Subroutines
20%
Textures
14%
Titanium alloys
57%
Mathematics
Coalescence
17%
Creep
17%
Crystal
14%
Crystal Plasticity
93%
Damage
16%
Energy
9%
Fatigue
18%
Finite Element Method
11%
Formulation
8%
Gas
12%
Metals
15%
Microstructure
15%
Model
9%
Nucleation
18%
Porosity
33%
Simulation
8%
Single Crystal
20%
Slip
16%
Software
12%
Texture
17%
Titanium Alloy
100%
Voids
69%
Chemical Compounds
Coalescence
30%
Creep
34%
Crystal Orientation
35%
Crystalline Texture
26%
Energy
13%
Gas
14%
Metal
12%
Microstructure
18%
Nucleation
22%
Phase Interface
63%
Porosity
32%
Simulation
17%
Single Crystalline Solid
19%
Strength
17%
Titanium Alloy
68%
Volume
32%
Physics & Astronomy
coalescing
13%
computer programs
10%
crystals
26%
damage
9%
energy
4%
finite element method
11%
formulations
9%
gases
7%
high strength alloys
19%
metals
7%
microstructure
8%
nucleation
10%
oils
12%
plastic properties
51%
porosity
20%
simulation
5%
single crystals
8%
slip
11%
subroutines
18%
textures
11%
titanium alloys
58%
triaxial stresses
18%
voids
48%