Mechanical and architectural features play an important role in designing biomedical devices. The use of materials (i.e., Ti6Al4V) with Young's modulus higher than those of natural tissues generally cause stress shielding effects, bone atrophy, and implant loosening. However, porous devices may be designed to reduce the implant stiffness and, consequently, to improve its stability by promoting tissue ingrowth. If porosity increases, mass transport properties, which are crucial for cell behavior and tissue ingrowth, increase, whereas mechanical properties decrease. As reported in the literature, it is always possible to tailor mass transport and mechanical properties of additively manufactured structures by varying the architectural features...
Integrating porous networks in load-bearing implants is essential in order to improve mechanical com...
Ti6Al4V lattice structures were fabricated using selective laser melting with a wide range of proces...
Cellular structures are similarly identified as lattice structures or foam structures which are comm...
Mechanical and architectural features play an important role in designing biomedical devices. The us...
The combination of topology optimization (TOP) and selective laser melting (SLM) provides the possib...
The development of porous metals to alleviate the effects of stress shielding in bone will help impr...
Orthopedic implants are under incessant advancement to improve their interactions with surrounding b...
Meeting the huge variety of patient’s needs is only partially possible with standard medical implant...
In this study, morphological and mechanical characterization was performed on Ti6Al4V scaffolds prod...
Porous Lattice Structure (PLS) scaffolds have shown potential applications in the biomedical domain....
Porous metal structures have emerged as a promising solution in repairing and replacing damaged bone...
Ti6Al4V sub-millimetric cellular structures arise as promising solutions concerning the progress of ...
The call for orthopedic implants is a growing concern with an ever-rising aging population. Current ...
Bone loss in the near-vicinity of implants can be a consequence of stress shielding due to stiffness...
Selective laser melting (SLM) is an additive manufacturing (AM) process that has been gaining widesp...
Integrating porous networks in load-bearing implants is essential in order to improve mechanical com...
Ti6Al4V lattice structures were fabricated using selective laser melting with a wide range of proces...
Cellular structures are similarly identified as lattice structures or foam structures which are comm...
Mechanical and architectural features play an important role in designing biomedical devices. The us...
The combination of topology optimization (TOP) and selective laser melting (SLM) provides the possib...
The development of porous metals to alleviate the effects of stress shielding in bone will help impr...
Orthopedic implants are under incessant advancement to improve their interactions with surrounding b...
Meeting the huge variety of patient’s needs is only partially possible with standard medical implant...
In this study, morphological and mechanical characterization was performed on Ti6Al4V scaffolds prod...
Porous Lattice Structure (PLS) scaffolds have shown potential applications in the biomedical domain....
Porous metal structures have emerged as a promising solution in repairing and replacing damaged bone...
Ti6Al4V sub-millimetric cellular structures arise as promising solutions concerning the progress of ...
The call for orthopedic implants is a growing concern with an ever-rising aging population. Current ...
Bone loss in the near-vicinity of implants can be a consequence of stress shielding due to stiffness...
Selective laser melting (SLM) is an additive manufacturing (AM) process that has been gaining widesp...
Integrating porous networks in load-bearing implants is essential in order to improve mechanical com...
Ti6Al4V lattice structures were fabricated using selective laser melting with a wide range of proces...
Cellular structures are similarly identified as lattice structures or foam structures which are comm...