Abstract Three-dimensional (3D) bioprinting technology allows the production of porous
structures with complex and varied geometries, which facilitates the development of equally …

Bioceramics are in high demand due to their biocompatibility and bone-regenerative
properties, representing a multibillion-dollar industry with orthopaedic and dental implant …

Additive manufacturing (AM) has been used for manufacturing of components with complex
geometries. AM also known as three-dimensional (3D) printing, is a topic of high growth in …

This review focuses on the advancements in additive manufacturing techniques that are
utilized for fabricating bioceramic scaffolds and their characterizations leading to bone tissue …

In recent years, bioactive ceramic bone scaffolds have drawn remarkable attention as an
alternative method for treating and repairing bone defects. Vat photopolymerization (VP) is a …

Dense hydroxyapatite (HA) bars were fabricated using digital light processing. The roles of
HA median particle size (MPS), curing depth-to-layer thickness ratio (CD/LT), and debinding …

Artificial bone graft stands out for avoiding limited source of autograft as well as susceptibility
to infection of allograft, which makes it a current research hotspot in the field of bone defect …

China derives its name from its rich legacy of traditional ceramic arts, which has inspired
generations of people in China and beyond to improve their ceramic processing skills. The …

Fluorapatite glass-ceramic (GC) and yttria-stabilized zirconia (YSZ) are two commonly used
ceramic materials for dental prosthetic restorations. Fluorapatite GCs are known for their …

Processing biomaterials into porous scaffolds for bone tissue engineering is a critical and a
key step in defining and controlling their physicochemical, mechanical, and biological …