Abstract β-Ti alloys are known for their very low Young's modulus, excellent physical
properties, and biocompatibility, hence they are considered as attractive metallic materials …

The corrosion behaviour of new generation titanium alloys (β-type with low modulus) for
medical implant applications is of paramount importance due to their possible detrimental …

The current study analyzes the surface, mechanical, biocorrosion, and antibacterial
performances of a nanocrystalline TiN ceramic coating synthesized using cathodic arc …

Low wear resistance and the relative high Young's modulus reduce the lifetime of the current
biomedical Ti alloys for orthopaedic applications. In this study, two novel low-cost β-Ti alloys …

In order to meet the clinical demand for titanium implants, the heterogeneous structure of TiO
2/SrTiO 3 coating was in situ fabricated on the surface of Ti6Al4V alloy by a facile way. The …

Magnesium (Mg) is well-known for its bioactivity and degradability. However, due to its low
evaporation temperature and limited solubility in titanium (Ti), the fabrication of Ti-Mg alloys …

Although Ti-based alloys have shown improved biocompatibility, the release of metal ions at
long implantation times due to reduced surface hardness and wear resistance results in …

The fabrication of bioactive polymer nanocomposite coatings with enhanced biocompatibility
and surface protection has been a topic of abundant concern in orthopaedic implant …

Biomedical implants have revolutionized modern medicine, providing diverse treatment
options for various medical conditions. Ensuring the long-term success of certain materials …

The surface characteristics and in vitro corrosion properties of nanocrystalline TiAlN coating
deposited on biomedical Ti6Al4V alloy by cathodic arc evaporation were studied. The …