Fe-based materials have received more and more interests in recent years as candidates to
fabricate bioresorbable stents due to their appropriate mechanical properties and …

Zn-based biodegradable alloys or composites have the potential to be developed to next-
generation orthopedic implants as alternatives to conventional implants to avoid revision …

Surface modifications using bioactive coatings can be utilized effectively to tailor the rate of
degradation and enhance biomineralization of magnesium (Mg) alloys. This study examines …

The biocompatibility and biodegradation of iron (Fe) make it a suitable candidate for
developing biodegradable metallic implants. However, the degradation rate of Fe in a …

Objectives To examine the 16-year developmental history, research hotspots, and emerging
trends of zinc-based biodegradable metallic materials from the perspective of structural and …

Rheological models of deformation behavior and structure formation of biodegradable Fe–
30Mn–5Si shape memory alloy (wt pct) under various upsetting conditions from 250° C to …

Despite all progresses made so far, in‐stent restenosis (ISR) is still a vital problem after
angioplasty and stenting with permanent stents. Therefore, the effects of microblasting on …

Drug-device systems based on biodegradable metals have been of great interest in the last
decade due to their local-release regime and the ability of the biodegradable metals to …

Despite being a weaker metal, zinc has become an increasingly popular candidate for
biodegradable implant applications due to its suitable corrosion rate and biocompatibility …

For gastrointestinal anastomosis, metallic biodegradable staples have a broad application
potential. However, both magnesium and zinc alloys have relatively low strength to …