Developments in selective laser melting (SLM) have enabled the fabrication of periodic cellular lattice structures characterized by suitable properties matching the bone tissue well and by fluid permeability from interconnected structures. These multifunctional performances are significantly affected by cell topology and constitutive properties of applied materials. In this respect, a diamond unit cell was designed in particular volume fractions corresponding to the host bone tissue and optimized with a smooth surface at nodes leading to fewer stress concentrations. There were 33 porous titanium samples with different volume fractions, from 1.28 to 18.6%, manufactured using SLM. All of them were performed under compressive load to determine...
Porous Lattice Structure (PLS) scaffolds have shown potential applications in the biomedical domain....
Scaffolds for bone regeneration have been investigated as bone substitutes in critical sized bone de...
Traditional implants made of bulk titanium are much stiffer than human bone and this mismatch can in...
Developments in selective laser melting (SLM) have enabled the fabrication of periodic cellular latt...
Cellular structures with highly controlled micro-architectures are promising materials for orthopedi...
The development of porous metals to alleviate the effects of stress shielding in bone will help impr...
© 2018 Elsevier Ltd Cellular structures with controllable mechanical properties and porous architect...
Laser powder bed fusion (L-PBF) techniques have been increasingly adopted for the production of high...
The call for orthopedic implants is a growing concern with an ever-rising aging population. Current ...
Dental implants need to support good osseointegration into the surrounding bone for full functionali...
This paper investigates the effect of designs and process parameters on the dimensional accuracy and...
Lattice structure topology is a rapidly growing area of research facilitated by developments in addi...
Mechanical and architectural features play an important role in designing biomedical devices. The us...
Selective laser melting (SLM) is an additive manufacturing (AM) process that has been gaining widesp...
This systematic comparison between sheet-based-TPMS and strut-based ordered and disordered Lattice t...
Porous Lattice Structure (PLS) scaffolds have shown potential applications in the biomedical domain....
Scaffolds for bone regeneration have been investigated as bone substitutes in critical sized bone de...
Traditional implants made of bulk titanium are much stiffer than human bone and this mismatch can in...
Developments in selective laser melting (SLM) have enabled the fabrication of periodic cellular latt...
Cellular structures with highly controlled micro-architectures are promising materials for orthopedi...
The development of porous metals to alleviate the effects of stress shielding in bone will help impr...
© 2018 Elsevier Ltd Cellular structures with controllable mechanical properties and porous architect...
Laser powder bed fusion (L-PBF) techniques have been increasingly adopted for the production of high...
The call for orthopedic implants is a growing concern with an ever-rising aging population. Current ...
Dental implants need to support good osseointegration into the surrounding bone for full functionali...
This paper investigates the effect of designs and process parameters on the dimensional accuracy and...
Lattice structure topology is a rapidly growing area of research facilitated by developments in addi...
Mechanical and architectural features play an important role in designing biomedical devices. The us...
Selective laser melting (SLM) is an additive manufacturing (AM) process that has been gaining widesp...
This systematic comparison between sheet-based-TPMS and strut-based ordered and disordered Lattice t...
Porous Lattice Structure (PLS) scaffolds have shown potential applications in the biomedical domain....
Scaffolds for bone regeneration have been investigated as bone substitutes in critical sized bone de...
Traditional implants made of bulk titanium are much stiffer than human bone and this mismatch can in...