In order to improve the stress shielding characteristics of orthopaedic devices implants that mimic the mechanical behaviour of bone need to be considered. Additive layer manufacturing processes provide a capability to produce orthopaedic implants with tailored mechanical properties. In this work cobalt chrome molybdenum cellular structures have been designed and manufactured using selective laser melting, with volume based porosity ranging between 25% and 95%. The effective mechanical properties have been determined through uniaxial compression testing and compared to numerical and analytical predictions where differences were observed. Cellular structures have been presented that exhibit similar stiffness and strength characteristics when...
The availability of additive manufacturing enables the fabrication of cellular bone tissue engineeri...
Bone loss in the near-vicinity of implants can be a consequence of stress shielding due to stiffness...
© 2018 Elsevier Ltd Cellular structures with controllable mechanical properties and porous architect...
In order to improve the stiffness characteristics of orthopedic devices implants that mimic the mech...
The use of cobalt chromium (CoCr) in orthopaedic joint replacement shields the peri-implant bone str...
Orthodontic implants have been a major focus through mechanical and biological performance in advanc...
The recent introduction of selective laser melting (SLM) for the processing of medical grade cobalt ...
Meta-biomaterial with rationally design geometrical features provides an exciting opportunity to red...
To minimize the stress shielding effect of metallic biomaterials in mimicking bone, the body-centere...
Over the last decade, advances in additive manufacturing have allowed to obtain complex 3D porous la...
Metallic orthopedic implants to replace or generate lost bones caused by traumatic road traffic inju...
Designing orthodontic implants with desired physical and biological performance and to fabricate net...
This work compares the stress distribution in the periprosthetic cortical bone when implanted with C...
One of the main biomechanical causes for aseptic failure of orthopaedic implants is the stress shiel...
Orthopedic implants are under incessant advancement to improve their interactions with surrounding b...
The availability of additive manufacturing enables the fabrication of cellular bone tissue engineeri...
Bone loss in the near-vicinity of implants can be a consequence of stress shielding due to stiffness...
© 2018 Elsevier Ltd Cellular structures with controllable mechanical properties and porous architect...
In order to improve the stiffness characteristics of orthopedic devices implants that mimic the mech...
The use of cobalt chromium (CoCr) in orthopaedic joint replacement shields the peri-implant bone str...
Orthodontic implants have been a major focus through mechanical and biological performance in advanc...
The recent introduction of selective laser melting (SLM) for the processing of medical grade cobalt ...
Meta-biomaterial with rationally design geometrical features provides an exciting opportunity to red...
To minimize the stress shielding effect of metallic biomaterials in mimicking bone, the body-centere...
Over the last decade, advances in additive manufacturing have allowed to obtain complex 3D porous la...
Metallic orthopedic implants to replace or generate lost bones caused by traumatic road traffic inju...
Designing orthodontic implants with desired physical and biological performance and to fabricate net...
This work compares the stress distribution in the periprosthetic cortical bone when implanted with C...
One of the main biomechanical causes for aseptic failure of orthopaedic implants is the stress shiel...
Orthopedic implants are under incessant advancement to improve their interactions with surrounding b...
The availability of additive manufacturing enables the fabrication of cellular bone tissue engineeri...
Bone loss in the near-vicinity of implants can be a consequence of stress shielding due to stiffness...
© 2018 Elsevier Ltd Cellular structures with controllable mechanical properties and porous architect...