With the rapid advancements in technology, there has been an increased usage of Additive Manufacturing (AM) for the medical industry due to its ability and flexibility in customisation. Bio-implants of intricate geometries with complex architectures can now be fabricated with ease. Current design of a solid hip implant is limited in abilities due to the different needs of people. Generally, children and elderly require an implant which is lower in strength and stiffness as compared to young adults or athletes who have higher strength and stiffness demand as a result of their daily activities and difference in bone densities. There have been increased researches on the mechanical properties of EBM-fabricated Ti6Al4V (Ti64) lattice structures...
The advent of additive manufacturing technologies significantly encouraged the development and usage...
Electron Beam Melting (EBM) as a means of Additive Manufacturing (AM), is of interest for the fabric...
Titanium alloys (e.g., Ti6Al4V) have been widely considered for the design of biomedical implants. T...
The development of medical implants is an ongoing process pursued by many studies in the biomedical ...
This paper presents some examples of knee and hip implant components containing porous structures an...
The call for orthopedic implants is a growing concern with an ever-rising aging population. Current ...
Selective laser melting (SLM) is an additive manufacturing (AM) process that has been gaining widesp...
Lattice structure topology is a rapidly growing area of research facilitated by developments in addi...
EBM (Electron Beam Melting) technology can be used successfully to obtain cellular solids in metalli...
This work aimed to study one of the most important challenges in orthopaedic implantations, known as...
AbstractElectron Beam Melting (EBM) as a means of Additive Manufacturing (AM), is of interest for th...
This work aimed to study one of the most important challenges in orthopaedic implantations, known as...
Nowadays, additive manufacturing (AM) makes possible the production of complex metallic parts, and t...
A key advantage of additive manufacturing (AM) is that it allows the fabrication of lattice structur...
Electron beam melting (EBM) is a direct metal additive manufacturing technique which has been recent...
The advent of additive manufacturing technologies significantly encouraged the development and usage...
Electron Beam Melting (EBM) as a means of Additive Manufacturing (AM), is of interest for the fabric...
Titanium alloys (e.g., Ti6Al4V) have been widely considered for the design of biomedical implants. T...
The development of medical implants is an ongoing process pursued by many studies in the biomedical ...
This paper presents some examples of knee and hip implant components containing porous structures an...
The call for orthopedic implants is a growing concern with an ever-rising aging population. Current ...
Selective laser melting (SLM) is an additive manufacturing (AM) process that has been gaining widesp...
Lattice structure topology is a rapidly growing area of research facilitated by developments in addi...
EBM (Electron Beam Melting) technology can be used successfully to obtain cellular solids in metalli...
This work aimed to study one of the most important challenges in orthopaedic implantations, known as...
AbstractElectron Beam Melting (EBM) as a means of Additive Manufacturing (AM), is of interest for th...
This work aimed to study one of the most important challenges in orthopaedic implantations, known as...
Nowadays, additive manufacturing (AM) makes possible the production of complex metallic parts, and t...
A key advantage of additive manufacturing (AM) is that it allows the fabrication of lattice structur...
Electron beam melting (EBM) is a direct metal additive manufacturing technique which has been recent...
The advent of additive manufacturing technologies significantly encouraged the development and usage...
Electron Beam Melting (EBM) as a means of Additive Manufacturing (AM), is of interest for the fabric...
Titanium alloys (e.g., Ti6Al4V) have been widely considered for the design of biomedical implants. T...