Engineering & Materials Science
Grain boundaries
100%
Bicrystals
95%
Fatigue of materials
73%
Copper
68%
Nucleation
62%
Fatigue crack propagation
53%
Microstructure
52%
Cracks
52%
Single crystals
48%
Plasticity
45%
Crack propagation
37%
Plastics
36%
Polycrystals
35%
Crystallography
33%
Fatigue damage
32%
Nuclear fuels
32%
Anisotropy
31%
State estimation
28%
Backscattering
28%
Nitrides
27%
Temperature
26%
Electrons
25%
Metals
24%
Transmission electron microscopy
23%
Diffraction
23%
Sapphire
23%
Crack tips
23%
Lasers
22%
Nanoindentation
22%
Aluminum
22%
Polymer matrix composites
21%
Crystals
20%
Geometry
20%
Strain rate
20%
Plastic deformation
20%
Textures
19%
Oxides
18%
Characterization (materials science)
18%
Statistics
18%
Nickel
17%
Polycrystalline materials
17%
Fission products
16%
Uranium dioxide
16%
Ultrasonics
16%
Experiments
16%
Tomography
16%
Titanium
15%
X rays
15%
Microscopic examination
14%
Uranium
14%
Chemistry
Grain Boundary
84%
Strain
59%
Polycrystalline Solid
52%
Microstructure
47%
Metallic Material
35%
Electron Backscattering
34%
Nuclear Fuel
31%
Nucleation
31%
Plastic Property
29%
Anisotropy
25%
Crystallography
25%
Single Crystalline Solid
23%
Grain Size
23%
Simulation
23%
Twin Boundary
23%
Plastic Deformation
23%
Fuel
23%
Length
22%
Nitride
22%
Crystalline Texture
21%
Pressure
21%
Crack Propagation
20%
Plate Like Crystal
20%
Surface
18%
Alloy
18%
Wave
17%
Shape
16%
Heterogeneity
16%
Metal
16%
Tension
15%
Shear Stress
14%
Strength
14%
Yield Point
13%
Thermal Expansion
13%
Velocity
12%
Triple Point
12%
Volume
12%
Slip Band
12%
Pellet
12%
Fractography
12%
Inertia
11%
Coalescence
11%
Fission Product
11%
Transmission Electron Microscopy
11%
Sintering
10%
Time
10%
Purity
10%
Shear Modulus
9%
Porosity
9%
X-Ray
9%
Physics & Astronomy
shock
65%
damage
55%
bicrystals
46%
copper
39%
grain boundaries
37%
cracks
37%
microstructure
31%
voids
20%
plastic properties
20%
nuclear fuels
19%
lasers
19%
characterization
19%
slip
18%
prognosis
17%
plastics
17%
metals
16%
zirconium nitrides
16%
misalignment
16%
nucleation
15%
single crystals
14%
sapphire
14%
fission products
13%
transmission electron microscopy
13%
pellets
12%
plastic deformation
11%
simulation
11%
nanoindentation
10%
geometry
10%
polycrystals
10%
crystallography
9%
shock fronts
9%
porosity
9%
fractography
9%
bolted joints
9%
grain size
9%
yttrium alloys
9%
textures
8%
mechanical properties
8%
crack tips
8%
backscattering
8%
perturbation
8%
nickel aluminides
8%
aluminum
8%
stress concentration
8%
uranium oxides
7%
fatigue life
7%
microscopy
7%
histories
7%
uranium
7%
spallation
6%
