Bone tissue engineering provided the innovative solution to regenerate bone tissue using
scaffolds (porous) structures. This research investigates optimization, additive manufacturing …

Bone scaffolds should have good biocompatibility and mechanical and biological properties,
which are primarily by the material design, porous structure, and preparation process. In this …

Abstract Wire Arc Additive Manufacturing (WAAM) is an additive manufacturing process that
uses an electric arc as the heat source to melt the feed metal wire and deposit it as per the …

ABSTRACT A streamlined design workflow that facilitates the efficient design and
manufacture of patient-specific scaffolds independently applied by the surgical team has …

This work introduces a rapid modeling method for gradient porous structures with conformal
density, aiming to address the challenges of transitional variation of porosity, and control of …

The number of patients with bone defects caused by trauma and diseases has been
increasing year by year. The treatment of bone defects remains a major challenge in clinical …

The fluidic behavior of porous scaffolds plays a vital role in the mass transportation of cells
and the formation of new tissue, which is crucial for promoting bone ingrowth. TPMS porous …

Due to their excellent properties, triply periodic minimal surfaces (TPMS) have been applied
to design scaffolds for bone tissue engineering applications. Predicting the mechanical …

Hybrid lattice structures are composed of several dissimilar unit cells arranged in specific
patterns. Unlike their one-phase counterparts, hybrid lattices remain relatively unexplored. In …

Driven by the growing interest of the scientific community and the proliferation of research in
this field, cranial implants have seen significant advancements in recent years regarding …