Surface engineering of additively manufactured titanium alloys for enhanced clinical performance of biomedical implants: A review of recent developments
Titanium (Ti)-based alloys exhibit low elastic modulus that better match the modulus of
human bones than several other metallic biomaterials while providing high strength to …
human bones than several other metallic biomaterials while providing high strength to …
Surface engineering of additively manufactured titanium alloys for enhanced clinical performance of biomedical implants: A review of recent developments
VMS Muthaiah, S Indrakumar, S Suwas, K Chatterjee - Bioprinting, 2022 - eprints.iisc.ac.in
Titanium (Ti)-based alloys exhibit low elastic modulus that better match the modulus of
human bones than several other metallic biomaterials while providing high strength to …
human bones than several other metallic biomaterials while providing high strength to …
Surface engineering of additively manufactured titanium alloys for enhanced clinical performance of biomedical implants: A review of recent developments
VMS Muthaiah, S Indrakumar, S Suwas, K Chatterjee - Bioprinting, 2022 - eprints.iisc.ac.in
Titanium (Ti)-based alloys exhibit low elastic modulus that better match the modulus of
human bones than several other metallic biomaterials while providing high strength to …
human bones than several other metallic biomaterials while providing high strength to …