Abstract 3D printed bone scaffolds have the potential to replace autografts and allografts
because of advantages such as unlimited supply and the ability to tailor the scaffolds' …

Abstract 3D printing, an additive manufacturing based technology for precise 3D
construction, is currently widely employed to enhance applicability and function of cell laden …

Additive manufacturing (AM) or three-dimensional (3D) printing has introduced a novel
production method in design, manufacturing, and distribution to end-users. This technology …

Additive Manufacturing (AM) processes, also known as 3D printing, enable geometrically
complex parts to be produced layer by layer on the basis of three-dimensional (3D) data …

Advances in biomaterials and the need for patient-specific bone scaffolds require modern
manufacturing approaches in addition to a design strategy. Hybrid materials such as those …

Additive manufacturing (AM) is poised to bring about a revolution in the way products are
designed, manufactured, and distributed to end users. This technology has gained …

Three-dimensional (3D) printing is becoming an increasingly common technique to fabricate
scaffolds and devices for tissue engineering applications. This is due to the potential of 3D …

Additive manufacturing (AM) is a technology which has the potential not only to change the
way of conventional industrial manufacturing processes, adding material instead of …

This paper offers a review of present achievements in the field of processing of ceramic‐
based materials with complex geometry using the main additive manufacturing (AM) …

Currently, one of the most promising strategies in bone tissue engineering focuses on the
development of biomimetic scaffolds. Ceramic-based scaffolds with favorable osteogenic …