Abstract Ultralight Mg-Li alloys offer promising applications across various fields. Mg-Li
alloys enriched with Al and Zn hold theoretical potential for achieving excellent mechanical …

Oral ulcers have periodicity and recurrence, and the etiology and causative mechanisms
remain unclear; therefore, it is difficult to treat oral ulcers effectively. Current clinical …

The primary focus during surgery is to ensure successful implantation by achieving long-
term and stable fixation of implants. Orthopaedic surgery is now more focused on the …

Magnesium-based alloys hold potential for medical applications, but face challenges like
rapid bioresorption and limited mechanical strength during early bone healing. In our study …

As an industrially reliable, controllable and effective deformation technique, friction stir
process (FSP) can significantly refine the grain size, effectively activate prismatic plane and …

Semisolid powder molding was used to prepare the medical Mg–6Zn alloy; in order to
further improve its degradation adaptability, 0.5 and 1 wt% Mn were added. Then, the effect …

Magnesium is a popularly known class of biodegradable metallic biomaterials, and it has
spent most of its time in corrosion environments that must be validated before it can be used …

Mg-based biomaterials, due to their desirable mechanical integrity, natural bioabsorbability,
and osteopromotive characteristics, are promising candidates for both orthopedic …

In this study, developing a composite coating on the surface of a biodegradable Mg–5Zn
alloy using friction stir process (FSP) is the goal to control biodegradation of the alloy. The …

Zinc has currently emerged as a promising biodegradable metal due to its good
biocompatible property and promising degradation behaviour. Additionally, inadequate …