Commercially pure titanium (CP–Ti) gyroid scaffolds with interconnected pores and high
porosities in the range of 68–73% and three different unit cell sizes of 2, 2.5, and 3 mm were …

Abstract Ti-6Al-4V gyroid scaffolds with high porosities in the range of 82–85% and three
different unit cell sizes 2, 2.5 and 3 mm were manufactured by electron beam melting (EBM) …

Selective laser melting (SLM) has enabled the production of porous titanium structures with
biological and mechanical properties that mimic bone for orthopedic applications. These …

Porous Titanium scaffolds have attracted widespread attention as bone implants for avoiding
the stress shielding effect and promoting bone-in-growth. In this study, multi-morphology …

To improve the mechanical compatibility and biocompatibility of porous scaffolds for dental
application, functionally graded porous titanium scaffolds with average porosity of 20–80 …

Bone scaffolds created in porous structures manufactured using selective laser melting
(SLM) are widely used in tissue engineering, since the elastic moduli of the scaffolds are …

Functionally graded materials (FGMs) with porosity variation strategy mimicking natural
bone are potential high-performance biomaterials for orthopedic implants. The architecture …

A significant requirement for a bone implant is to replicate the functional gradient across the
bone to mimic the localization change in stiffness. In this work, continuous functionally …

The simultaneous achievement of admirable mechanical compatibility and osteoinduction in
metallic implants can avoid stress shielding and facilitate osseointegration and …

Triply periodic minimal surface (TPMS) structures have already been shown to be a versatile
source of biomorphic scaffold designs. Therefore, in this work, Ti–6Al–4V Gyroid and …