Magnesium, its alloys and composites with an approximate density of two-thirds of aluminum
and a quarter of steel are the most prominent engineering materials in various industries …

Thousands of different nanoparticles (NPs) involve in our daily life with various origins from
food, cosmetics, drugs, etc. It is believed that decreasing the size of materials up to …

Additive manufacturing (AM) is among the most attractive methods to produce implants, the
processes are very swift and it can be precisely controlled to meet patient's requirement …

The natural design and coupling of biological structures are the root of realizing the high
strength, toughness, and unique functional properties of biomaterials. Advanced architecture …

As the suitable severe plastic deformation technique that can be used on an industrial scale,
accumulative roll-bonding (ARB) has a significant impact in both scientific and industrial …

Titanium and titanium alloys are used as artificial bone substitutes due to the good
mechanical properties and biocompatibility, and are widely applied in the treatment of bone …

In recent years, significant advances in the field of medical materials have begun to emerge,
especially in nanotechnology. The modern area of nanostructured implants possesses wide …

Functional gradient materials (FGMs), as a modern group of materials, can provide multiple
functions and are able to well mimic the hierarchical and gradient structure of natural …

Due to the growing aging population of the world, and as a result of the increasing need for
dental implants and prostheses, the use of titanium and its alloys as implant materials has …

Gradient materials have significant potential to break strong plastic tradeoffs. Graphene with
a strong affinity for titanium alloys has an influential application value for material …