Engineering & Materials Science
Crack tips
100%
Single crystals
56%
Crystals
54%
Dislocations (crystals)
50%
Silicon
49%
Superconducting transition temperature
47%
Fracture toughness
43%
Cracks
41%
Temperature
38%
Electron microscopy
36%
Crystalline materials
31%
Transmission electron microscopy
30%
Shielding
29%
Electrons
27%
Organic light emitting diodes (OLED)
26%
Tomography
25%
Hydrogen
25%
Strain rate
25%
Activation energy
25%
Plastic deformation
24%
Plasticity
24%
Low carbon steel
24%
Fatigue of materials
23%
Iron alloys
23%
Steel
21%
Ferritic stainless steel
20%
Indentation
19%
Roll bonding
19%
Silicon wafers
18%
Electric potential
18%
Grain boundaries
16%
Microstructure
16%
Strain hardening
15%
Torsional stress
14%
Iron
14%
Shear stress
13%
Crack propagation
13%
Bending tests
13%
Chemical activation
13%
Martensite
13%
Excitons
13%
Diffraction
12%
Interfacial energy
12%
Pearlite
12%
Carbon steel
12%
Austenitic stainless steel
12%
Silicon alloys
12%
Ductility
12%
Scanning electron microscopy
12%
Yield stress
12%
Physics & Astronomy
crack tips
79%
slip
46%
cracks
40%
silicon
36%
fracture strength
33%
plastic properties
32%
crystals
30%
steels
29%
high voltages
29%
single crystals
26%
low carbon steels
24%
cementite
23%
transition temperature
23%
electron microscopy
21%
shielding
20%
tomography
19%
temperature dependence
18%
ductile-brittle transition
18%
iron alloys
16%
plastic deformation
16%
critical loading
15%
tensile deformation
15%
microstructure
14%
strain rate
14%
transmission electron microscopy
13%
electrons
13%
strain distribution
12%
activation energy
12%
activation
12%
pearlite
12%
indentation
12%
plastics
11%
wafers
11%
shear stress
11%
grain boundaries
11%
strain hardening
10%
silicon alloys
10%
carbon steels
10%
toughness
9%
hydrogen
9%
titanium
9%
ductility
8%
kink bands
8%
edge dislocations
8%
martensite
8%
temperature
8%
lamella
8%
iron
7%
work hardening
7%
holders
7%
Chemical Compounds
Fracture Toughness
55%
Strain
41%
Alloy
36%
Slip Band
34%
Single Crystalline Solid
33%
Plastic Deformation
32%
Electron Microscopy
29%
Yield Point
27%
Strain Hardening
25%
Shear Stress
21%
Reaction Activation Energy
20%
Grain Boundary
19%
Electron Particle
17%
Microstructure
16%
Activation Volume
15%
Ductility
15%
Plastic Property
13%
Ambient Reaction Temperature
12%
Residual Stress
12%
Compound Mobility
12%
Crack Propagation
11%
Torsion
11%
Simulation
11%
Delayed Fluorescence
10%
Hydrogen
10%
Delamination
10%
Photoelasticity
10%
Transmission Electron Microscopy
10%
Holder
8%
Exciton
8%
Magnetic Field Effect
8%
Solute
8%
Interfacial Energy
7%
Nitrogen
7%
Energy
7%
Velocity
7%
Arrhenius Plot
7%
Atomic Force Microscopy
6%
Voltage
6%
Electron Backscatter Diffraction
6%
Fracture (Material)
6%
Purity
6%
Tempering
5%
Fracture Mechanics
5%
Marker
5%
Grain Size
5%
Ion Beam
5%
Disclination Type Defect
5%
Metal
5%
Dislocation Loop
5%
