The use of biomedical metallic materials in research and clinical applications has been an
important focus and a significant area of interest, primarily owing to their role in enhancing …

The increasing demand for orthopedic implants has driven the search for materials that
combine strength, biocompatibility, and long lifetime. Compared to stainless steel and Co-Cr …

Titanium alloys play a prominent role as metallic biomaterials in the biomedical sector,
particularly for implant applications. Various types of Ti alloys are suitable for medical …

Over the past few years, 3D‐printed biomaterials have gained widespread usage in the
manufacturing of orthopaedic implants. 3D‐printed implants have low weight, minimal …

A new class of alloys called magnesium-based alloys has the unique property of being
biodegradable inside the humans and animals. In addition to being biodegradable, Mg …

The use of cutting-edge techniques is beneficial for the research and development of
biomaterials and the production of new sustainable biomaterials. Eco-friendly biomaterials …

In recent years, zinc, and its alloys, along with biodegradable metals made of Mg and Fe,
have been projected as potential replacements for biodegradable metals due to their better …

Early implant failure and bone resorption may occur in load-bearing conditions as a result of
stress shielding brought on by a mismatch in the bone-Ti-implant modulus. A review with a …

Abstract Micro Electro-Discharge Machining is a precision machining process that uses
electrical discharge to produce small-scale components with high accuracy. A metal …

This comprehensive study conducts a systematic assessment of the mechanical and
corrosion properties of titanium-based dental implant materials after plasma electrolytic …