The inkjet technique has the capability of generating droplets in the picoliter volume range,
firing thousands of times in a few seconds and printing in the noncontact manner. Since its …

As a non-beam-based additive manufacturing (AM) method, binder jet 3D printing (BJ3DP)
is a process in which a liquid binder is jetted on layers of powdered materials, selectively …

Critical-sized bone defect repair remains a substantial challenge in clinical settings and
requires bone grafts or bone substitute materials. However, existing biomaterials often do …

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' …

A range of traditional and free-form fabrication technologies have been investigated and, in
numerous occasions, commercialized for use in the field of regenerative tissue engineering …

Recent advances in additive manufacturing (AM) have enabled the fabrication of functionally
graded porous biomaterials (FGPBs) for application as orthopedic implants and bone …

Tissue engineered products (TEPs), which mean biomaterials containing either cells or
growth factors or both cells and growth factors, may be used as an alternative to the …

Critically engineered stiffness and strength of a scaffold are crucial for managing
maladapted stress concentration and reducing stress shielding. At the same time, suitable …

Additive manufacturing (AM), nowadays commonly known as 3D printing, is a revolutionary
materials processing technology, particularly suitable for the production of low-volume parts …

Given the enormous increase in the risks of bone and cartilage defects with the rise in the
aging population, the current treatments available are insufficient for handling this burden …