Titanium and its alloys have already been widely used as implant materials due to their
outstanding mechanical characteristics and biocompatibility. Notwithstanding this …

The use of biodegradable polymers for treating bone-related diseases has become a focal
point in the field of biomedicine. Recent advancements in material technology have …

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 …

Magnesium is a biodegradable metal that has potential in orthopaedics. It has several
advantages over other metallic materials because it is biocompatible and degradable now …

The techniques for making orthopaedic implants and devices have advanced significantly in
recent years. The use of additive manufacturing technology enables the creation of intricate …

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 …

As implant materials, titanium and its alloys have been extensively utilized because of their
exceptional mechanical properties and biocompatibility. Despite this, corporations and …

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 …

Phase change materials (PCM's) are substances that absorb or discharge heat
called'latent'heat as they experience a change in their physical state. For applications such …

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 …