Synthesis and characterization of an open-pore toxic-element-free Ti-based bulk metallic glass foam for bio-implant application

Keyphrases

• Toxic Elements 100%
• Glass Foam 100%
• Biomedical Implants 100%
• Element-free 100%
• Ti-based Bulk Metallic Glass 100%
• Implant Placement 100%
• Open Pore 100%
• Mechanical Properties 50%
• Bulk Metallic Glass 50%
• High Current 25%
• Porosity 25%
• Cyclic Voltammetry 25%
• Specific Peaks 25%
• Yield Strength 25%
• Young's Modulus 25%
• Electrochemical Test 25%
• Powder Metallurgy 25%
• In Vivo Test 25%
• Osseointegration 25%
• In Vitro Biocompatibility 25%
• Open Cell 25%
• Human Bone 25%
• Space Holder 25%
• Electrochemical Response 25%
• Amorphous Nature 25%
• Stress Shielding 25%
• New Zealand White Rabbit 25%
• Exposed Area 25%
• State Test 25%
• Simulation Body Fluid 25%
• Foam Morphology 25%
• Reduction Response 25%
• Oxidation Response 25%
• Composition Elements 25%

Material Science

• Bulk Metallic Glass 100%
• Biocompatibility 16%
• Electrochemical Property 16%
• Cyclic Voltammetry 16%
• Young's Modulus 16%
• Yield Stress 16%
• Powder Metallurgy 16%
• Body Fluid 16%

Engineering

• Bulk Metallic Glass 100%
• Porosity 33%
• Young's Modulus 16%
• Implant 16%
• Powder Metallurgy 16%
• Element Composition 16%
• Yield Point 16%