Material Science
Nanocrystalline
100%
Nanocrystals
94%
Grain Size
85%
Grain Boundary
84%
Mechanical Property
72%
Deformation Mechanism
48%
Lithium Ion Battery
47%
Plastic Deformation
35%
Strain Rate
32%
Fracture Toughness
31%
Anode
31%
Composite Material
30%
Surface (Surface Science)
28%
Solid Electrolyte
26%
Density
26%
Nucleation
23%
Lithium
22%
Shear Band
21%
Grain Boundary Sliding
21%
Silicon
19%
Metal Matrix Composite
16%
Crack Tip
16%
Carbon Nanotube
15%
Yield Stress
14%
Stress Concentration
14%
Stress-Strain Relations
14%
Ultimate Tensile Strength
13%
Crack Propagation
13%
Constitutive Modeling
12%
Lithium Ion
12%
Finite Element Method
11%
Fatigue Crack Growth
10%
Nanowire
10%
Film
10%
Solid State Battery
10%
All-Solid-State Batteries
10%
Work Hardening
10%
Edge Dislocation
10%
Crack Growth
10%
Tensile Loads
9%
Mechanical Testing
9%
High Entropy Alloys
9%
Void Growth
8%
Cathode
7%
Electrochemical Reaction
7%
Stress Intensity Factor
7%
Elastic Moduli
7%
Stress Field
7%
Thin Films
7%
Sintering
6%
Engineering
Nanocrystals
44%
Nanomaterial
41%
Nanocrystalline
36%
Mechanical Property
35%
Deformation Mechanism
23%
Grain Interior
17%
Plastic Deformation
14%
Shear Band
13%
Fine Grain
12%
Induced Stress
12%
Strain Rate
12%
Deformation Behavior
10%
Constitutive Model
10%
Lithium-Ion Batteries
10%
High Strain Rate
9%
Grain Boundary Sliding
9%
Nanocrystalline Metal
8%
Low-Temperature
7%
Phase Mixture
7%
Phase Boundary
7%
Strain Gradient
7%
Mechanical Model
6%
Crystal Structure
6%
Eutectics
6%
Incident Energy
6%
Bending Deformation
6%
Grain Size Effect
6%
Austenitic Stainless Steel
6%
Constitutive Modeling
6%
Effect of Strain
6%
All-Solid-State Batteries
6%
Representative Volume Element
5%
Affected Zone
5%
Stress-Strain Relations
5%
Nanometre
5%
