To meet the growing demand for transportation and energy consumption around the world,
more efficient turbine engines and power generators with higher operating temperatures are …

Due to problems such as the stress-shielding effect, strength–ductility trade-off dilemma, and
use of rare-earth, expensive elements with high melting points in Ti alloys, the need for the …

The present work depicts a compilation of mechanical properties of 282 distinct
multicomponent Ti-based alloys and their respective microstructural features. The dataset …

Abstract The laminated Ti/Ti-50 Nb alloy (laminated Ti-TiNb alloy) was designed and
fabricated by spark plasma sintering (SPS) combined with hot rolling. TEM and EBSD were …

In this study, an attempt has been made for tailoring the surface features of an 18 vol%
porosity containing Tisingle bond 23Nb alloy manufactured via powder metallurgy method …

β-type TiNb biomedical alloys have received quite significant attention rooted in their
excellent comprehensive performance. Nevertheless, their practical application is hampered …

Abstract Herein, β-type Ti–Nb–Zr–Mn alloys were prepared by ball milling and spark plasma
sintering. The effects of Mn addition and quenching treatment on the microstructure …

In this paper, advanced hot isostatic pressing (HIP) subjected to high and intermediate
cooling rate (HCR & ICR) were exploited to close keyholes and tune the microstructure of …

Balancing the strength, ductility and Elastic modulus of β-Ti alloys is still a great challenge
for medical implantation, extremely limiting its further applications. Herein, we prepared a …

Surface modification of Ti implants can improve their performance. For instance, it is well
established that a nanostructured oxide surface layer increases their capacity for effective …