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AMTopical concept
Over recent years there has been a push to develop Titanium (Ti) implants with a customised compressive modulus that would mimic that of load bearing bones (i.e. 10-30 GPa). One of the approaches suggested to achieve the desired properties is by alloying Ti with biocompatible alloying elements, such as Niobium (Nb), at bespoke quantities. These alloys can then be used in Selective Laser Melting (SLM) and other AM processes, provided they have suitable particle size distributions, chemical homogeneity, and flowability. Commercial powders for AM are typically produced by atomisation routes, but this process is not financially viable unless large quantities of powdered material are produced, and therefore not suitable for small scale productio...
As the technology for titanium metal injection molding (Ti-MIM) becomes more readily available, effi...
Ti-45Nb is one of the potential alloys that can be applied for biomedical applications as implants d...
The performance of many metal biomedical implants – such as fusion cages for spines – is inherently ...
Alloying titanium (Ti) with niobium (Nb) offers the possibility to develop a low-stiffness, high- st...
Metallic biomedical implants such as titanium-based alloys are very useful for orthopaedic applicat...
Alloying titanium (Ti) with niobium (Nb) offers the ability to develop a low-stiffness Ti alloy. The...
In this study, Ti-(0-30 wt.%)Nb alloys developed from elemental powders were fabricated by the Selec...
Supplementary files for article The use of inorganic process control agents to mill titanium‑niobiu...
Alloys based on the titanium-niobium system are widely used in implant production. It is conditional...
This PhD study firstly presents the results of using selective laser melting (SLM) to produce commer...
Ti–Nb alloys are excellent candidates for biomedical applications such as implantology and joint rep...
The mechanical properties of new low-modulus beta titanium alloyed designed for biomedical applicati...
Selective laser melting (SLM) is an additive manufacturing (AM) technique that is capable of fabrica...
Titanium alloys are receiving a great deal of attention in both medical and dental applications. For...
A titanium-niobium (Ti-Nb) alloy with tailored microstructures, enhanced mechanical properties and b...
As the technology for titanium metal injection molding (Ti-MIM) becomes more readily available, effi...
Ti-45Nb is one of the potential alloys that can be applied for biomedical applications as implants d...
The performance of many metal biomedical implants – such as fusion cages for spines – is inherently ...
Alloying titanium (Ti) with niobium (Nb) offers the possibility to develop a low-stiffness, high- st...
Metallic biomedical implants such as titanium-based alloys are very useful for orthopaedic applicat...
Alloying titanium (Ti) with niobium (Nb) offers the ability to develop a low-stiffness Ti alloy. The...
In this study, Ti-(0-30 wt.%)Nb alloys developed from elemental powders were fabricated by the Selec...
Supplementary files for article The use of inorganic process control agents to mill titanium‑niobiu...
Alloys based on the titanium-niobium system are widely used in implant production. It is conditional...
This PhD study firstly presents the results of using selective laser melting (SLM) to produce commer...
Ti–Nb alloys are excellent candidates for biomedical applications such as implantology and joint rep...
The mechanical properties of new low-modulus beta titanium alloyed designed for biomedical applicati...
Selective laser melting (SLM) is an additive manufacturing (AM) technique that is capable of fabrica...
Titanium alloys are receiving a great deal of attention in both medical and dental applications. For...
A titanium-niobium (Ti-Nb) alloy with tailored microstructures, enhanced mechanical properties and b...
As the technology for titanium metal injection molding (Ti-MIM) becomes more readily available, effi...
Ti-45Nb is one of the potential alloys that can be applied for biomedical applications as implants d...
The performance of many metal biomedical implants – such as fusion cages for spines – is inherently ...
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