Keyphrases
Titanium Alloy
100%
Fatigue Life
75%
Ti-6Al-4V (Ti64)
58%
Weldment
50%
Life Assessment
50%
Property Evaluation
50%
Fatigue Properties
50%
Welded Structures
50%
High-cycle Fatigue Life
50%
Electron Beam Welding
50%
Fatigue Design
45%
Design Codes
37%
Constant Amplitude Loading
33%
Variable Amplitude Loading
33%
Ti-6Al-4V Alloy
29%
Engineering Application
29%
Rutile
29%
Butt Joint
25%
Mean Stress Correction
25%
Fatigue Life Analysis
20%
Fatigue Analysis
20%
Base Metals
20%
Titanium Structures
20%
Failure Mode
20%
Miner's Rule
12%
Compressive Mean Stress
12%
Load Amplitude
12%
Aluminum Alloy Weld
12%
Goodman Curve
12%
High Fatigue Strength
12%
Correction Method
12%
Design Guidelines
12%
Correction Strategy
12%
Fracture Site
12%
Fatigue Test
12%
Fatigue Life Prediction
12%
Steel Alloy
12%
High Cycle Fatigue
12%
Fatigue Design Curve
12%
System Design
8%
Material Microstructure
8%
Fatigue Failure
8%
High Specific Strength
8%
Biomedical Implants
8%
Steel Weldments
8%
Residual Life Estimation
8%
Aluminum Alloy
8%
Offshore Equipment
8%
Vacuum Brazing
8%
First Year
8%
Military
8%
Electron Beam Welding-brazing
8%
Welding Method
8%
Corrosion Resistance
8%
Failure Data
8%
Variable Amplitude Cyclic Loading
8%
Material Geometry
8%
High-temperature Properties
8%
Material Flaw
8%
Fatigue Data
8%
Aerospace Vehicle
8%
Steel-aluminum
8%
Sports Equipment
8%
Fatigue Evaluation
8%
Engineering
Fatigue Life
57%
Ti-6al-4v
57%
Electron Beam Welding
57%
Fatigue Design
53%
Fatigue Property
50%
Weldment
50%
High Cycle Fatigue
50%
Welded Structure
46%
Design Code
33%
Engineering Application
26%
Ti-6al-4v Alloy
26%
Butt Joint
25%
Tensiles
25%
Constant Amplitude
25%
Fatigue Analysis
19%
Mechanical Fatigue Test
19%
Failure Mode
19%
Base Metal
19%
Palmgren-Miner Rule
12%
Fatigue Life Prediction
12%
Fracture Site
12%
Design Guideline
12%
Butt Welding
12%
Fatigue Strength
12%
Temperature Property
7%
Vacuum Brazing
7%
Residual Life
7%
Fatigue Failure
7%
Implant
7%
Failure Data
7%
Design System
7%
Aerospace Vehicle
7%
Material Microstructure
7%
Cyclic Loading
7%
Corrosion Resistance
7%
Welds
7%
Material Science
Titanium Alloy
100%
Ti-6Al-4V
87%
Fatigue of Materials
62%
Titanium
57%
High-Cycle Fatigue
50%
Aluminum Alloy
22%
Brazing
12%
Corrosion Resistance
12%
Aerospace Vehicle
12%
Alloy Steel
10%