Today, a large number of different steels are being processed by Additive Manufacturing
(AM) methods. The different matrix microstructure components and phases (austenite, ferrite …

For over ten years, metallic skeletal endoprostheses have been produced in select cases by
additive manufacturing (AM) and increasing awareness is driving demand for wider access …

Laser powder bed fusion (LPBF) of metals is a popular mode of additive manufacturing (AM)
that has the advantage of producing complex shapes with little or no additional processing …

The movement towards the commercialization of biodegradable Fe has been hampered by
the perceived slow degradation rate of the metal in physiological environments. The …

The aim of this paper is to assess the current status of processing biodegradable metals
(BDM) via selective laser melting (SLM), with particular emphasis on bone scaffold …

Metal additive manufacturing has strongly gained scientific and industrial importance during
the last decades due to the geometrical flexibility and increased reliability of parts, as well as …

Among the alloy systems for the fabrication of metallic components using additive
manufacturing (AM), steels as a broad family of alloys attract significant attention owing to …

This work investigates the influence of Ag (1 wt%) on the mechanical properties, in vitro and
in vivo corrosion, and biocompatibility of Fe‐35Mn. The microstructure of Fe‐35Mn‐1Ag …

Highly customisable implants with lattice structures can be achieved using selective laser
melting (SLM) paving the way for tailored biodegradable Fe-based implants. For the first …

Additive Manufacturing (AM) allows to produce improved, custom made, patient specific and
complex shaped medical implants. Both mechanical and biological aspects as well as type …