Engineering & Materials Science
Nanoindentation
100%
Roll bonding
82%
Composite materials
80%
Multilayers
72%
Transmission electron microscopy
55%
Nanocomposites
52%
Microstructure
47%
Temperature
45%
Indentation
42%
Hardness
41%
Metallic glass
39%
Mechanical properties
38%
Plasticity
36%
Textures
35%
Strain rate
33%
Irradiation
31%
Ion bombardment
29%
Bimetals
28%
Nanocrystalline materials
27%
Plastic deformation
26%
Zirconium
26%
Ductility
25%
Crystals
23%
Shear bands
23%
Yield stress
22%
Grain boundary sliding
22%
Dislocations (crystals)
22%
Formability
21%
Single crystals
21%
Heavy ions
21%
Hardening
21%
Nanostructured materials
21%
Grain boundaries
20%
Plastics
19%
Metals
18%
Superplasticity
18%
Nucleation
18%
Strain hardening
15%
Radiation damage
15%
Uranium
14%
Crystal orientation
14%
Radiation
14%
Testing
13%
Thin films
13%
Magnetron sputtering
13%
Ions
13%
Electron diffraction
13%
Chemical Compounds
Composite Material
72%
Multilayer
64%
Strain
59%
Strength
57%
Microstructure
50%
Crystalline Texture
44%
Nanocomposite
38%
Plastic Deformation
36%
Grain Boundary
36%
Ductility
35%
Shear
34%
Yield Point
33%
Plastic Property
31%
Metallic Glass
28%
Alloy
27%
Polycrystalline Solid
26%
Strain Hardening
25%
Transmission Electron Microscopy
25%
Nanomaterial
24%
Grain Size
21%
Length
21%
Heavy Ion
20%
Body-Centered Cubic Crystal System
20%
Tungsten
18%
Flow
17%
Crystal Orientation
17%
Metal
17%
Size Effect
16%
Ambient Reaction Temperature
15%
Simulation
15%
Nucleation
15%
Superplasticity
15%
Single Crystalline Solid
13%
Resistance
13%
Eutectics
13%
Electron Backscatter Diffraction
12%
Hexagonal Space Group
12%
Bubble
11%
Face-Centered Cubic Crystal System
11%
Cubic Space Group
11%
Uranium Alloy
11%
Dislocation Loop
10%
Surface
10%
Atomistic Simulation
10%
Crystal Point Defect
10%
Misfit Dislocation
10%
Purity
9%
Ion Beam
9%
Grain Growth
9%
Physics & Astronomy
composite materials
42%
nanoindentation
40%
ductility
30%
metallic glasses
25%
strain rate
22%
plastic properties
22%
hardness
22%
microstructure
21%
indentation
19%
transmission electron microscopy
16%
mechanical properties
16%
high strength
15%
sliding
15%
twinning
15%
plastic deformation
14%
bimetals
14%
nanocomposites
14%
textures
14%
ion irradiation
13%
grain boundaries
13%
shear
13%
heavy ions
13%
grain size
12%
hardening
12%
superplasticity
12%
irradiation
11%
yield strength
10%
temperature
10%
tungsten
10%
voids
10%
plastics
9%
uranium alloys
9%
slip
9%
strain hardening
9%
nanocrystals
8%
thermal stability
8%
implantation
7%
scale effect
7%
copper
7%
room temperature
7%
metals
7%
magnetron sputtering
6%
uranium
6%
tantalum
6%
bubbles
6%
characterization
6%
shear strength
6%
diffraction
6%
ion beams
5%
stainless steels
5%