Bioinspired architectures are effective in enhancing the mechanical properties of materials,
yet are difficult to construct in metallic systems. The structure-property relationships of …

Titanium (Ti) and its alloys are used as promising material for bone implants due to their
high strength to weight ratio and good biocompatibility. Many researchers investigated …

In recent years, materials science research based on magnesium (Mg) alloys has increased
significantly due to their notable advantages over traditional metals. However, magnesium …

In recent years, along with the development and application of magnesium alloys,
magnesium alloys have been widely used in automotive, aerospace, medicine, sports, and …

A semi-degradable Ti+ Mg composite with superior compression and cytotoxicity properties
have been successfully fabricated using ink jet 3D printing followed by capillary mediated …

In the present study, the microstructure and mechanical behaviors of graphene
nanoplatelets (GNPs)/titanium (Ti) particles reinforced AZ91 laminate under tension along …

The light weight and complementary properties of Mg and Ti give Mg/Ti composites great
development potential. The design and exploitation of high-quality and low-cost fabrication …

Ti-based scaffolds reinforced with zirconia and hydroxyapatite were produced successfully
by a hybrid method with an eco-friendliness and low cost to obtain low elastic modulus (E) …

In the present study, various electrochemical tests were used to investigate the passive and
electrochemical response of annealed and nano-grained commercial pure Titanium in …

Metallic implant materials are biomaterials that have experienced major development over
the last fifty years, yet some demands posed to them have not been addressed. For the …