The suitability of Zn-1.3% Fe alloy as a biodegradable implant material

Keyphrases

• Corrosion Rate 100%
• Biodegradable Implant Materials 100%
• Fe Alloys 100%
• Micro-galvanic Effect 66%
• Pure Zinc 33%
• Zinc 33%
• Red Blood Cells 33%
• Hemoglobin 33%
• Degradation Rate 33%
• Biocompatibility 33%
• Impedance Spectroscopy 33%
• Weight Gain 33%
• Phosphate-buffered Saline 33%
• White Blood Cells 33%
• Simulated Physiological Environment 33%
• Fe-based Alloy 33%
• Biomedical Implants 33%
• Polarized Spectroscopy 33%
• Potentiodynamic Polarization 33%
• Immersion Test 33%
• Subcutaneous Tissue 33%
• Cellular Level 33%
• Systemic Effects 33%
• Magnesium 33%
• Corrosion Products 33%
• Histological Analysis 33%
• In Vivo Analysis 33%
• Measurement Analysis 33%
• Penetration Rate 33%
• Magnesium-based Materials 33%
• Alloying Elements 33%
• Alloy Composition 33%
• Accelerated Corrosion 33%
• Cylindrical Disk 33%
• Pure Zn 33%
• Fe Phase 33%
• Wister Rats 33%
• Implant Degradation 33%
• Corrosion Rate Prediction 33%
• Gravity Casting 33%
• Alloy Corrosion 33%
• Gain Characteristics 33%
• Hematological Traits 33%
• Metallic Zinc 33%

Engineering

• Corrosion Rate 100%
• Implant 100%
• Erythrocyte 25%
• Degradation Rate 25%
• Corrosion Product 25%
• Histological Analysis 25%
• Alloying Element 25%
• Penetration Rate 25%
• Base Alloy 25%
• Alloy Composition 25%
• Potentiodynamic Polarisation Test 25%
• Systemic Effect 25%
• Gravity Casting 25%
• Leukocyte 25%

Material Science

• Corrosion 100%
• Implant Material 100%
• Zinc 40%
• Pure Zinc 40%
• Magnesium 40%
• Dielectric Spectroscopy 20%
• Phosphate Buffered Saline 20%
• Alloying 20%