In industries such as aerospace, petrochemistry and automobile, many parts of different
machines are under environment which shows high temperature and high pressure, and …

Metal additive manufacturing (AM) has led to an evolution in the design and fabrication of
hard tissue substitutes, enabling personalized implants to address each patient's specific …

The increasing need for joint replacement surgeries, musculoskeletal repairs, and
orthodontics worldwide prompts emerging technologies to evolve with healthcare's …

A major advantage of additive manufacturing (AM) technologies is the ability to print
customized products, which makes these technologies well suited for the orthopedic …

Titanium-based materials are widely used in various areas due to their unique combination
of outstanding characteristics. Properties such as stiffness, strength and wear resistance of …

Titanium and its alloys have received considerable attention for biomedical applications
such as orthopaedic implants due to their outstanding mechanical properties and excellent …

Abstract Ti and Ti-TiB composite materials were produced by selective laser melting (SLM).
Ti showed an α΄ microstructure, whereas the Ti-TiB composite revealed a distribution of …

Commercially pure titanium was produced using laser engineered net sha** (LENS) and
selective laser melting (SLM) processes. The SLM and LENS processing parameters as well …

A significant requirement for a bone implant is to let bone cells grow better. However, how to
increase the cellular activity of the scaffold at a certain elastic modulus remains unclear …

Titanium alloys have emerged as the most successful metallic material to ever be applied in
the field of biomedical engineering. This comprehensive review covers the history of titanium …