The additive manufacturing of titanium–niobium–tantalum alloys with nominal chemical
compositions Ti–xNb–6Ta (x= 20, 27, 35) by means of laser beam powder bed fusion is …

Abstract Binary titanium–niobium (Ti–Nb) alloys have recently been attracted due to low
Young's moduli and non-toxic properties. This study explores the influence of low Nb content …

Beta titanium alloys are promising materials for load-bearing orthopaedic implants due to
their excellent corrosion resistance and biocompatibility, low elastic modulus and moderate …

The application of Ti-6Al-4V alloy or commercially pure titanium for additive manufacturing
enables the fabrication of complex structural implants and patient-specific implant …

This study aimed to produce Ti-15Nb alloy with a low elastic modulus, verify its
biocompatibility, and determine whether the alloy indirectly influences cellular viability and …

A Ti–34Nb–13Ta–5Zr (TNT5Zr) β Ti alloy with a high strength-to-modulus ratio has been
developed, showing its potential to become another candidate material in load-bearing …

Commercially pure titanium (cp-Ti) is regarded as the state-of-the-art material for bone-
anchored dental devices, whereas the mechanically stronger alloy (Ti–6Al–4V), made of …

This study delves into the comprehensive characterization of the Ti–25Ta-xNb alloy system,
whith a focus on its potential biomedical applications. Int intriguing insights into these alloys …

The synthesis of spherical titanium/niobium/tantalum (TNT) alloy powders, namely Ti-20Nb-
6Ta, Ti-27Nb-6Ta, Ti-35Nb-6Ta, and Ti-22Nb-19Ta (in wt-%) by electrode induction melting …

Orthopedic and dental implants made of β-type Ti alloys have low elastic modulus which can
better relieve the stress shielding effects after surgical implantation. Nevertheless, clinical …