In biomedical applications, the conventionally used metallic materials, including stainless
steel, Co-based alloys and Ti alloys, often times exhibit unsatisfactory results such as stress …

Magnesium (Mg) and some of its alloys have attracted extensive interests for biomedical
applications as they exhibit biodegradability and low elastic modulus that is closer to natural …

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 …

Magnesium (Mg) alloys have been introduced as new generation of biodegradable
orthopedic materials in recent years since it has been proved that Mg is one of the main …

Biodegradable metals hold promises for bone fracture repair. Their clinical translation
requires pre-clinical evaluations including animal studies, which demonstrate the safety and …

Magnesium (Mg) and its alloys are considered promising biodegradable implant materials
because of their strength and ability to degrade naturally in the body. However, pure Mg …

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

Biodegradable Mg-based metal matrix composite (Mg-MMC) reinforced by MgO ceramics
and Mg–Zn intermetallics were prepared by in situ reaction using a powder mixture of pure …

Magnesium (Mg) alloys are being investigated as a biodegradable metallic biomaterial
because of their mechanical property profile, which is similar to the human bone. However …

Metal matrix nanocomposites (MMNCs) are an emerging class of metals with nanosized
reinforcements and have been investigated extensively in recent decades due to their …