On the nature and crystallographic orientation of subsurface cracks in high cycle fatigue of Ti-6Al-4V

Keyphrases

• Nature Orientation 100%
• High Cycle Fatigue 100%
• Subsurface Fatigue 66%
• Fracture Plane 66%
• Grain Morphology 33%
• Fatigue Crack 33%
• Ti-6A1-4V 33%
• Bimodal Microstructure 33%
• Electron Channeling Contrast Imaging 33%
• Deformation Structure 33%
• Fatigue Stress 33%
• Fatigue Damage 33%
• Electron Microscopy Techniques 33%
• Physiological Test 33%
• Total Hip Prosthesis 33%
• Texture Morphology 33%
• Forming Operations 33%

Engineering

• Crystallographic Orientation 100%
• High Cycle Fatigue 100%
• Channelling 60%
• Fracture Plane 40%
• Fatigue Damage 20%
• Fatigue Stress 20%
• Fatigue Crack 20%

Material Science

• High-Cycle Fatigue 100%
• Fatigue Crack 50%
• Fatigue Damage 50%