The powder metallurgy (PM) of titanium alloys has received more and more attention in
structural and biomedical applications owing to its low cost, near-net-shape formability, and …

The necessity for biomedical components is increasing every year. However, Ti6Al4V, the
most widely utilized titanium alloy for biomedical implants are very costly owing to the high …

A comprehensive study of Fe alloying influence on as-cast titanium alloys, including
microstructure, mechanical properties, bio-corrosion behavior and in-vitro cell response …

The large-scale accumulation and pollution of solid mining waste is an urgent issue. Coal
gangue is a prominent type of solid waste, and shows promise for use in high value-added …

Stress shielding is caused by the mismatch of stiffness between bone and implant materials,
which may give rise to bone resorption and loosening, thereby causing implantation failure …

One of the biggest challenges in tissue engineering is the manufacturing of porous
structures that are customized in size and shape and that mimic natural bone structure …

Titanium-tantalum alloys with lamellar microstructure were fabricated by cold isostatic
pressing under 400 MPa and pressure-free sintering at 1600° C. By such a low-cost powder …

A series of ternary Ti–6Zr-xFe (x= 4, 5, 6, 7 wt%) biomedical titanium alloy was designed to
develop potential biomedical materials. The effect of the Fe content on microstructure …

A low-cost Ti-2Fe-0.1 B alloy with high performance was manufactured and hydrogenated in
this study. The effect of 0.3 wt% hydrogen addition on microstructure evolution, compression …

Taking advantage of the fact that conventional solid-to-solid diffusion couples have the
limited diffusion ability of elements and the diffusion ability of metal iron in liquid state is …