Trauma-and disease-related skeletal defects and illnesses are plaguing millions of people
especially in an ageing globe. Recently, the convergence of additive manufacturing (AM) …

Lattice structures are vital for biological applications because of its numerous benefits (for
example, faster and stronger binding to bone tissue). Consequently, processing of lattice …

The porous structure design of implants can not only obtain a more lightweight implant but
also provide more space for its cell growth. The technology development of additive …

Additive Manufacturing (AM) or rapid prototy** technologies are presented as one of the
best options to produce customized prostheses and implants with high-level requirements in …

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

Abstract The Ti6Al4V alloy is one of the most commonly used in orthopedic surgery.
Mechanical property of implant contributes important biological functions for load-bearing …

Every year, millions of people around the world undergo bone graft and artificial prosthesis
transplants which engenders the repair and/or replacement of native bone for treating bone …

With the increasing application of orthopedic scaffolds, a dramatically increasing number of
requirements for scaffolds are precise. The porous structure has been a fundamental design …

Porous metal scaffolds play an important role in the orthopedic field, due to their wide
applications in prostheses implantation. Some previous studies showed that the scaffolds …

With the ability to produce components with complex and precise structures, additive
manufacturing or 3D printing techniques are now widely applied in both industry and …