Titanium-magnesium composites have gained increasing attention as a partially degradable
biomaterial recently. The titanium-magnesium composite combines the bioactivity of …

Titanium (Ti) has been widely used in biomedical implants due to its excellent mechanical
properties and biocompatibility. However, the “stress shielding” effect greatly limits the …

The light weight and complementary properties of Mg and Ti give Mg/Ti composites great
development potential. The design and exploitation of high-quality and low-cost fabrication …

The recurrence of osteosarcoma (OS) after reconstruction using Ti6Al4V prostheses remains
a major problem in the surgical treatment of OS. Modification of the surfaces of Ti6Al4V …

Simultaneous sintering of low-melting-point Mg and high-melting-point Ti was achieved by a
novel one-step high-pressure solid-state sintering technique. The correlation between the …

Biomedical Fe, as novel load-bearing implants for clinical applications, is restricted by too
slow degradation. Herein, Fe-CaSO 4 biocomposite is prepared at low temperature of …

Different contents of Mg (3 wt% and 5 wt%) were introduced into the Tisingle bond Nb alloy
to fabricate a novel Ti-Nb-Mg alloy by mechanical alloying (MA) and spark plasma sintering …

This research presents a novel approach to overcome the stress shielding effect and non-
degradability commonly observed in metallic implants, which often require revision surgery …

Natural fish scales demonstrate outstanding mechanical efficiency owing to their elaborate
architectures and thereby may serve as ideal prototypes for the architectural design of man …

Ti-Mg composites have been successfully fabricated by a novel high-pressure solid-state
sintering technique, by which simultaneous solid-state sintering of the low-melting-point Mg …