The increasing demand for orthopedic implants has driven the search for materials that
combine strength, biocompatibility, and long lifetime. Compared to stainless steel and Co-Cr …

Titanium and its alloys have already been widely used as implant materials due to their
outstanding mechanical characteristics and biocompatibility. Notwithstanding this …

Compared with stainless steel and Co–Cr‐based alloys, Ti and its alloys are widely used as
biomedical implants due to many fascinating properties, such as superior mechanical …

Thanks to a considerable number of fascinating properties, titanium (Ti) and Ti alloys play
important roles in a variety of industrial sectors. However, Ti and Ti alloys could not satisfy all …

The high specific strength, good corrosion resistance, and great biocompatibility make
titanium and its alloys the ideal materials for biomedical metallic implants. Ti-6Al-4V alloy is …

Electrochemical measurements and microstructural analysis were performed to study the
corrosion resistance of different planes of Ti-6Al-4V alloy manufactured by selective laser …

Selective laser melting (SLM) is an advanced manufacturing technology providing
alternative method of producing complex components directly from 3D computer models …

We reveal differences in composition and structure of passive films and repassivation rate of
titanium in 3.5 wt% NaCl and in 6 M HNO 3. Titanium in 6 M HNO 3 shows worse corrosion …

Corrosion resistance of titanium (Ti) alloys is closely connected with their microstructure
which can be adjusted and controlled via different annealing schemes. Herein, we …

Additive manufacturing (AM) can be seen as a disruptive process that builds complex
components layer upon layer. Two of its distinct technologies are Selective Laser Melting …