Engineering & Materials Science
Lithium-ion batteries
100%
Electrodes
53%
Fatigue damage
27%
Single crystals
26%
Cathodes
26%
Indentation
24%
Steam turbines
24%
Load limits
24%
Plasticity
23%
Nanoindentation
21%
Fatigue of materials
20%
Nozzles
20%
Numerical analysis
20%
Creep
19%
Degradation
18%
Rotors
17%
Elastic moduli
14%
ABAQUS
13%
Subroutines
11%
Crack initiation
9%
Hardness
9%
Cathode materials
8%
Mechanical properties
7%
Current density
6%
Deterioration
6%
Binders
5%
Statistical Models
5%
Experiments
5%
Physics & Astronomy
electric batteries
47%
steam turbines
33%
electrodes
28%
plastic properties
25%
rotors
23%
ions
21%
lithium
20%
damage
15%
cycles
9%
crack initiation
8%
subroutines
7%
microbalances
5%
dwell
5%
margins
5%
critical loading
5%
curves
5%
Chemical Compounds
Behavior as Electrode
35%
Turbine
30%
Plastic Property
30%
Creep
28%
Crack Initiation
21%
Cathode
20%
Crack (Fracture)
18%
Single Crystalline Solid
16%
Diffusion
16%
Sample Preparation Method
14%
Dimension
10%
Current Density
6%
Mechanical Fatigue
6%
Chemical Potential
5%
Polycrystalline Solid
5%
Binding Agent
5%