3D fiber-deposited scaffolds for tissue engineering: Influence of pores geometry and architecture on dynamic mechanical properties

## Abstract Mechanical properties of three‐dimensional (3D) scaffolds can be appropriately modulated through novel fabrication techniques like 3D fiber deposition (3DF), by varying scaffold's pore size and shape. Dynamic stiffness, in particular, can be considered as an important property to optimi

## Abstract Among novel scaffold fabrication techniques, 3D fiber deposition (3DF) has recently emerged as a means to fabricate well‐defined and custom‐made scaffolds for tissue regeneration, with 100% interconnected pores. The mechanical behavior of these constructs is dependent not only on differ

## Abstract Poly(1,8‐octanediol‐__co__‐citric acid) (POC) is a synthetic biodegradable elastomer that can be processed into three‐dimensional (3D) scaffolds for tissue engineering. We investigated the effect of designed porosity on the mechanical properties, permeability, and degradation profiles o

## Abstract 3D porous Ti6Al4V scaffolds were directly fabricated by a rapid prototyping technology, 3D fiber deposition (3DF). In this study, scaffolds with different structures were fabricated by changing fiber spacing and fiber orientation. The influence of different architectures on mechanical p