Material Science
Anisotropy
9%
Anode
9%
Aqueous Zinc-Ion Battery
11%
Austenitic Stainless Steel
18%
Carbide
5%
Cathode
18%
Constitutive Modeling
18%
Crack Initiation
9%
Crack Propagation
5%
Creep
71%
Creep Property
22%
Creep Resistance
9%
Creep-Fatigue Interaction
46%
Crystal Plasticity
9%
Deformation Mechanism
13%
Density
27%
Dislocation Structure
6%
Dynamic Strain Aging
28%
Effect of Strain
23%
Elastic Moduli
6%
Electron Backscatter Diffraction
19%
Electron Microscopy
7%
Fatigue Behavior
58%
Fatigue Crack
13%
Fatigue Crack Growth
6%
Fatigue Damage
46%
Fatigue Life
12%
Fatigue of Materials
100%
Fracture Behavior
20%
Grain Boundary
6%
Hardened Steel
9%
Low-Cycle Fatigue
70%
Martensite
9%
Microhardness
10%
Microscopy
6%
Multiaxial Fatigue
9%
Nanoindentation
14%
Oxide Compound
5%
Sodium Ion Battery
9%
Stainless Steel
18%
Strain Rate
10%
Stress Relaxation
7%
Tensile Property
9%
Titanium
27%
Transmission Electron Microscopy
5%
Ultimate Tensile Strength
9%
Weld Metal
11%
Welded Joint
46%
Work Hardening
6%
Yield Stress
9%
Engineering
Anchor Bolt
9%
Bauschinger Effect
12%
Biaxial Loading
9%
Creep
69%
Creep Behavior
21%
Critical Plane
9%
Cyclic Loading
11%
Damage Behavior
9%
Damage Mechanics
12%
Damage Mechanism
20%
Damage Model
10%
Detrimental Effect
9%
Dynamic Strain Aging
16%
Effect of Strain
11%
Experimental Response
9%
Fatigue Behavior
27%
Fatigue Cycle
14%
Fatigue Damage
52%
Fatigue Damage Parameter
12%
Fatigue Failure
9%
Fatigue Life
21%
Fatigue Loading
30%
Fracture Behavior
18%
Hardened Steel
9%
Interaction Behavior
9%
Lath Martensite
11%
Load Ratio
9%
Loading Parameter
9%
Loading Path
9%
Low Cycle Fatigue
39%
Mechanical Fatigue Test
11%
Multiaxial Fatigue
15%
Nonproportional Loading
9%
Phase Loading
9%
Planar Anisotropy
9%
Plane Load
9%
Plastic Limit
9%
Pure Titanium
9%
Resistant Steel
9%
Retention Capacity
9%
Ring Support
9%
Rolling Direction
9%
Strain Amplitude
36%
Strain Rate
18%
Temperature Range
9%
Tensile Loads
9%
Thrust Force
9%
Tower
9%
Weld
32%
Weldment
9%
