Add to ORKGThis paper will report on research which aims to generate bone replacement components by processing bioactive glass-ceramic powders using indirect selective laser sintering. The indirect SLS route has been chosen as it offers the ability to tailor the shape of the implant to the implantation site, and two bioactive glass ceramic materials have been processed through this route: apatite-mullite and apatite-wollostanite. The results of bend tests, to investigate mechanical properties, and in vitro and in vivo experiments to investigate biological responses of the materials will be reported, and the suitability of completed components for implant will be assessed.Mechanical Engineerin
In this paper, the compressive strength and in vitro bioactivity of sintered 45S5 bioactive glass sc...
Large bone defects are challenging to heal, and often require an osteoconductive and stable support ...
In this study, the Bioeutectic® blocks were inserted into the critical size defects of eight rabbits...
This paper will report on research which aims to generate bone replacement components by processing...
An initial investigation was held into the feasibility of producing bone replacement implants from ...
This paper discusses two ceramic material systems for selective laser sintering (SLS) that are bein...
Bioactive glasses are promising materials for bone scaffolds due to their ability to assist in tissu...
The main objective of this work was to determine the feasibility of using indirect selective laser s...
This paper develops an indirect selective laser sintering (SLS) processing route for apatite–wollast...
Bioactive glasses are promising materials for bone scaffolds due to their ability to assist in tissu...
Bioactive glasses are more promising than biopolymers in fabricating scaffolds for bone tissue repa...
Bone scaffold fabrication using powder-bed based additive manufacturing techniques, like the selecti...
Traditionally, bioactive glasses have been used to fill and restore bone defects. More recently, thi...
Large bone defects are challenging to heal, and often require an osteoconductive and stable support ...
Bioactive glass is a synthetic material that reacts in vivo and forms an inorganic hydroxyapatite-li...
In this paper, the compressive strength and in vitro bioactivity of sintered 45S5 bioactive glass sc...
Large bone defects are challenging to heal, and often require an osteoconductive and stable support ...
In this study, the Bioeutectic® blocks were inserted into the critical size defects of eight rabbits...
This paper will report on research which aims to generate bone replacement components by processing...
An initial investigation was held into the feasibility of producing bone replacement implants from ...
This paper discusses two ceramic material systems for selective laser sintering (SLS) that are bein...
Bioactive glasses are promising materials for bone scaffolds due to their ability to assist in tissu...
The main objective of this work was to determine the feasibility of using indirect selective laser s...
This paper develops an indirect selective laser sintering (SLS) processing route for apatite–wollast...
Bioactive glasses are promising materials for bone scaffolds due to their ability to assist in tissu...
Bioactive glasses are more promising than biopolymers in fabricating scaffolds for bone tissue repa...
Bone scaffold fabrication using powder-bed based additive manufacturing techniques, like the selecti...
Traditionally, bioactive glasses have been used to fill and restore bone defects. More recently, thi...
Large bone defects are challenging to heal, and often require an osteoconductive and stable support ...
Bioactive glass is a synthetic material that reacts in vivo and forms an inorganic hydroxyapatite-li...
In this paper, the compressive strength and in vitro bioactivity of sintered 45S5 bioactive glass sc...
Large bone defects are challenging to heal, and often require an osteoconductive and stable support ...
In this study, the Bioeutectic® blocks were inserted into the critical size defects of eight rabbits...