Combinatorial development and in vitro characterization of the quaternary Zr–Ti–X–Y (X–Y= Cu–Ag/Co–Ni) metallic glass for prospective bioimplants
The prospect of Zr‐based metallic glasses (MGs) in achieving a combination of properties,
such as excellent electrochemical properties and extended biocompatibility, has been
studied in this work. The combinatorial method (magnetron co‐sputtering) has been adopted
to fabricate two novel quaternary MG systems (Zr50Ti32Cu13Ag5 and Zr40Ti37Co12Ni11)
with optimized compositions. The structural analysis has been performed by the grazing
incidence x‐ray diffraction and high‐resolution transmission electron microscopy to affirm …
such as excellent electrochemical properties and extended biocompatibility, has been
studied in this work. The combinatorial method (magnetron co‐sputtering) has been adopted
to fabricate two novel quaternary MG systems (Zr50Ti32Cu13Ag5 and Zr40Ti37Co12Ni11)
with optimized compositions. The structural analysis has been performed by the grazing
incidence x‐ray diffraction and high‐resolution transmission electron microscopy to affirm …
[PDF][PDF] Combinatorial development and in-vitro characterization of the quaternary Zr-Ti-XY (XY= Cu-Ag/Co-Ni) metallic glass for prospective bio-implants.
I Shabib - researchgate.net
Materials for bio-implants is an area of extensive investigation among the researchers due to
the limited osseointegration, and the susceptibility of localized corrosion of the conventional
metallic (316L stainless steel, cp-Ti, Co-Cr alloys, etc.) materials. To alleviate the issues,
multicomponent disordered state solids, specifically, Zirconium (Zr)-based metallic glass
(MG) systems are considered to be a prominent choice. The prospect of Zr-based MGs to
achieve the combination of properties, such as excellent electrochemical properties and …
the limited osseointegration, and the susceptibility of localized corrosion of the conventional
metallic (316L stainless steel, cp-Ti, Co-Cr alloys, etc.) materials. To alleviate the issues,
multicomponent disordered state solids, specifically, Zirconium (Zr)-based metallic glass
(MG) systems are considered to be a prominent choice. The prospect of Zr-based MGs to
achieve the combination of properties, such as excellent electrochemical properties and …
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