Add to ORKGIn this study, Ti-(0-30 wt.%)Nb alloys developed from elemental powders were fabricated by the Selective Laser Melting (SLM) process. Compositional homogeneity, microstructure and mechanical performance were investigated as a function of energy density. The proportion of un-melted Nb particles and isolated pore count reduced with increasing energy density, while Ti allotropic content (i.e. α’, α” and β) varied with energy density due to in-situ alloying. Increasing the Nb content led to the stabilisation of the α” and β phases. The mechanical properties were similar to those compositions manufactured using casting methods, without further post processing. The addition of 20Nb (wt.%) and using an energy density of 230 J/mm3 resulted in a You...
Alloys which are planned to be used for implants fabrication must possess excellent biocompatibility...
A group of new Ti-7Mn-xNb alloys with Nb contents varying from 0 to 10 wt% were fabricated by conven...
In the present work, a Ti–26Nb alloy was elaborated in situ by laser additive manufacturing (L...
In this study, Ti-(0-30 wt.%)Nb alloys developed from elemental powders were fabricated by the Selec...
Alloying titanium (Ti) with niobium (Nb) offers the possibility to develop a low-stiffness, high- st...
A titanium-niobium (Ti-Nb) alloy with tailored microstructures, enhanced mechanical properties and b...
Ti-45Nb is one of the potential alloys that can be applied for biomedical applications as implants d...
Over recent years there has been a push to develop Titanium (Ti) implants with a customised compress...
Ti–Nb alloys are excellent candidates for biomedical applications such as implantology and joint rep...
The phase composition and microstructure of Ti-Nb alloy produced from composite titanium and niobium...
Ti alloys contemplating the simultaneous addition of Fe and Nb are available in the literature as Fe...
Ti-45Nb is one of the potential alloys that can be applied for biomedical applications as implants d...
Titanium alloys are widely used in the manufacture of biomedical implants because they possess an ex...
Titanium alloys are widely used in the manufacture of biomedical implants because they possess an ex...
This study attempts to develop Ti-Nb alloys with elastic moduli that approach that of human bone. Th...
Alloys which are planned to be used for implants fabrication must possess excellent biocompatibility...
A group of new Ti-7Mn-xNb alloys with Nb contents varying from 0 to 10 wt% were fabricated by conven...
In the present work, a Ti–26Nb alloy was elaborated in situ by laser additive manufacturing (L...
In this study, Ti-(0-30 wt.%)Nb alloys developed from elemental powders were fabricated by the Selec...
Alloying titanium (Ti) with niobium (Nb) offers the possibility to develop a low-stiffness, high- st...
A titanium-niobium (Ti-Nb) alloy with tailored microstructures, enhanced mechanical properties and b...
Ti-45Nb is one of the potential alloys that can be applied for biomedical applications as implants d...
Over recent years there has been a push to develop Titanium (Ti) implants with a customised compress...
Ti–Nb alloys are excellent candidates for biomedical applications such as implantology and joint rep...
The phase composition and microstructure of Ti-Nb alloy produced from composite titanium and niobium...
Ti alloys contemplating the simultaneous addition of Fe and Nb are available in the literature as Fe...
Ti-45Nb is one of the potential alloys that can be applied for biomedical applications as implants d...
Titanium alloys are widely used in the manufacture of biomedical implants because they possess an ex...
Titanium alloys are widely used in the manufacture of biomedical implants because they possess an ex...
This study attempts to develop Ti-Nb alloys with elastic moduli that approach that of human bone. Th...
Alloys which are planned to be used for implants fabrication must possess excellent biocompatibility...
A group of new Ti-7Mn-xNb alloys with Nb contents varying from 0 to 10 wt% were fabricated by conven...
In the present work, a Ti–26Nb alloy was elaborated in situ by laser additive manufacturing (L...