Fatigue Analysis of a Reconstructed Femur. Effects of Prosthetic Materials

Keyphrases

• Femur 100%
• Fatigue Analysis 100%
• Bone Cement 100%
• Prosthetic Material 100%
• Long-term Stability 50%
• Fatigue Life 50%
• Loading Conditions 33%
• Stainless Steel 33%
• Total Hip Replacement 33%
• Sensitivity Analysis 16%
• Surgical Procedures 16%
• Material Properties 16%
• Material Behavior 16%
• 3D Model 16%
• Young's Modulus 16%
• Ascending Stairs 16%
• Literature Research 16%
• Modeling Method 16%
• Finite Element Analysis 16%
• Influence Factors 16%
• Rutile 16%
• Cemented Total Hip Replacement 16%
• Hip Contact Forces 16%
• Muscle Force 16%
• Cement Mantle Thickness 16%
• Weak Parts 16%
• Normal Gait 16%
• CT Scan Data 16%
• Activity Profile 16%
• Gait Cycle 16%
• Dynamic Transient Analysis 16%
• Hip Joint 16%
• Duty Cycle 16%
• Increasing Longevity 16%
• Stress Distribution 16%
• Prosthetic Stem 16%
• Multiaxial Fatigue 16%
• Joint Material 16%
• Crack Initiation 16%
• Bone-cement Interface 16%
• Daily Activities 16%
• Anisotropic Material Property 16%
• Femoral Component 16%
• Load Cycle 16%

Engineering

• Prosthetics 100%
• Longer Term 100%
• Fatigue Lifetime 100%
• Fatigue Analysis 100%
• Term Stability 100%
• Joints (Structural Components) 66%
• Stainless Steel 66%
• Stem Material 66%
• Loading Condition 66%
• Finite Element Method 33%
• Anisotropic 33%
• Contact Force 33%
• Material Behavior 33%
• Young's Modulus 33%
• Transient Dynamic Analysis 33%
• Crack Initiation 33%
• Multiaxial Fatigue 33%
• Load Cycle 33%
• Duty Cycle 33%
• Ten Year 33%
• Gait Cycle 33%

Material Science

• Bone Cement 100%
• Materials Property 28%
• Stainless Steel 28%
• Young's Modulus 14%
• Anisotropic Material 14%
• Titanium 14%
• Crack Initiation 14%
• Multiaxial Fatigue 14%