Engineering & Materials Science
Grain boundaries
86%
Nanocrystalline alloys
70%
Microstructure
60%
Plasticity
55%
Atoms
51%
Magnesium
45%
Aluminum
42%
Strain rate
40%
Single crystals
37%
Nucleation
37%
Crashworthiness
35%
Molecular dynamics
35%
Nanocrystalline materials
35%
Magnesium alloys
34%
Aluminum alloys
33%
Temperature
32%
Hydrogen
32%
Welds
29%
Nanoclusters
25%
Grain growth
23%
Metals
22%
Twinning
22%
Defects
21%
Uncertainty
20%
Welding
20%
Binary alloys
19%
Embrittlement
18%
Vacancies
18%
Corrosion
18%
Point defects
17%
Cracks
17%
Tantalum
17%
Fatigue of materials
16%
Uncertainty analysis
16%
Crack propagation
16%
Impurities
16%
Plastic deformation
16%
Stacking faults
16%
Resistance welding
15%
Polycrystalline materials
15%
Niobium
15%
Plastic flow
15%
Galvanic corrosion
15%
Microstructural evolution
15%
Spot welding
15%
Creep
14%
Intermetallics
14%
Coalescence
14%
Mechanical properties
13%
Tantalum alloys
13%
Chemical Compounds
Alloy
100%
Grain Boundary
82%
Microstructure
58%
Strain
46%
Aluminium Alloy
43%
Shear
41%
Atomistic Simulation
38%
Magnesium Alloy
37%
Plastic Property
35%
Simulation
33%
Solute
30%
Grain Growth
28%
Resistance
27%
Grain Size
27%
Nanocrystalline Metal
27%
Nucleation
26%
Tension
25%
Yield Point
23%
Strength
22%
Electron Backscatter Diffraction
22%
Stacking Fault Energy
22%
Magnesium Atom
21%
Embrittlement
21%
Single Crystalline Solid
20%
Interstitial
19%
Length
19%
Corrosion
19%
Plastic Deformation
17%
Creep Behavior
17%
Force
16%
Polycrystalline Solid
16%
Nanomaterial
16%
Energy
15%
Crack Initiation
15%
Asymmetry
15%
Molecular Dynamics
15%
Molecular Cluster
14%
Ductility
14%
Extrusion
14%
Crystal Point Defect
14%
Stress Corrosion Cracking
13%
Creep
13%
Hydrogen
12%
Application
12%
Plate Like Crystal
11%
Anisotropy
11%
Residual Stress
10%
Coalescence
10%
Fracture (Material)
10%
Surface
10%
Physics & Astronomy
grain boundaries
52%
damage
24%
strain rate
22%
microstructure
22%
hydrogen
21%
interstitials
19%
aluminum
17%
plastic properties
17%
voids
16%
crack tips
15%
aluminum alloys
15%
nanocrystals
14%
single crystals
13%
simulation
13%
binary alloys
12%
metals
12%
spot welds
12%
cracks
12%
niobium
12%
Bauschinger effect
12%
nanoclusters
12%
nucleation
12%
molecular dynamics
11%
embrittlement
11%
point defects
10%
slip
10%
solutes
10%
dendrites
10%
grain size
9%
crack initiation
9%
nickel
9%
atoms
9%
mechanical properties
8%
binding energy
8%
characterization
8%
energy of formation
7%
sensitivity analysis
7%
tin
7%
twinning
7%
shear
7%
energy
7%
sinks
7%
defects
7%
yttrium alloys
6%
creep strength
6%
temperature
6%
helium
6%
kinetics
6%
environment simulation
6%