There remains growing interest in magnesium (Mg) and its alloys, as they are the lightest
structural metallic materials. Mg alloys have the potential to enable design of lighter …

Magnesium (Mg)-based biocomposites and bioalloys are used in biomedical applications
such as bone fixation, cardiovascular stents, hip joints, screws/pins, and dental implants …

Magnesium (Mg) and its alloys are potential metals for biodegradable implants because of
several benefits, including a reduction of stress shielding effect in the implant for orthopedic …

Recently, the topic of bioresorbable metals, with much focus on magnesium for bone implant
applications, has been an area of considerable investigation. Indeed, it could be argued that …

In modern days, the usage of trauma fixation devices has significantly increased due to
sports injury, age-related issues, accidents, and revision surgery purposes. Numerous …

Recently, there is a growing interest in developing magnesium (Mg) based degradable
biomaterial. Although corrosion is a concern for Mg, other physical properties, such as low …

Titanium lattice structures have found a wide range of lightweight applications. However,
lattice structures made from the commonly-used commercially pure titanium (CP− Ti) and Ti …

The present study aims to collect data, compare results and assess techniques used for
improving corrosion resistance and mechanical properties of biodegradable Mg alloys for …

This work aimed to improve the rapid biodegradation, poor wear resistance properties, and
lack of bioactivity of metallic biomaterials to be used in orthopedic applications. In this …

Biodegradable magnesium alloys as new biomedical implant materials have been
extensively studied because of their notable biodegradability over traditional bio-inert …