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 …

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 …

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 …

The durability of a metallic biomaterial to withstand weight loss is a key factor in determining
its service life and performance. Therefore, it is essential to create biomaterials with high …

This study delves into the comprehensive characterization of the Ti–25Ta-xNb alloy system,
whith a focus on its potential biomedical applications. Int intriguing insights into these alloys …

β-type titanium alloys with a body-centered cubic structure are highly useful in orthopedics
due to their low elastic modulus, lower than other commonly used alloys such as stainless …

Titanium alloys have been present for decades as the main components for the production
of various orthopedic and dental elements. However, modern times require titanium alloys …

The clinical success of implants depends on rapid osseointegration, and new materials are
being developed considering the increasing demand. Considering cobalt (Co) antibacterial …