Design an implant similar to the human bone is one of the critical problems in bone tissue
engineering. Metal porous scaffolds have good prospects in bone tissue replacement due to …

Abstract 3D printing offers attractive opportunities for large‐volume bone regeneration in the
oro‐dental and craniofacial regions. This is enabled by the development of CAD‐CAM …

Selective laser melting (SLM) can produce complex hierarchical architectures paving the
way for highly customisable biodegradable load-bearing bone scaffolds. For the first time, an …

Additively manufactured (AM) functionally graded porous metallic biomaterials offer unique
opportunities to satisfy the contradictory design requirements of an ideal bone substitute …

Additively manufacturing (AM) opens up the possibility for biodegradable metals to possess
uniquely combined characteristics that are desired for bone substitution, including bone …

Abstract Mg-Zn-Zr (ZK60) magnesium alloy samples were prepared by selective laser
melting (SLM). The processability of ZK60 prepared by SLM was thoroughly investigated via …

One of the recent technological developments in the Laser Powder Bed Fusion (LPBF)
process is the use of non-Gaussian beam profiles of power density distributions. Irrespective …

Laser powder bed fusion (PBF-LB) can be potentially used for producing patient-specific
biomedical devices based on micro struts such as cardiovascular stents. NiTi alloys are an …

With the ability to fabricate complex structures while meeting individual needs, additive
manufacturing (AM) offers unprecedented opportunities for bone tissue engineering in the …

Abstract Selective Laser Melting (SLM) is a promising technology for the manufacturing of
patient-specific medical implants, due to the intrinsic potential in the realization of one of a …