Implants are exposed to a complex physiological environment that contains various organic
compounds, especially proteins. The adsorption of proteins has an immense influence on …

During the last years, the scientific and industrial community has focused on the astonishing
properties of Fe–Mn–Al–C steels. These high advanced steels allow high-density reductions …

Iron, while attracting less attention than magnesium and zinc, is still one of the best
candidates for biodegradable metal stents thanks its biocompatibility, great elastic moduli …

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

Research on Fe-based biodegradable alloys for implant applications has increased
considerably over the past decade. However, there is limited information on the influence of …

Additive manufacturing is a promising technology for the fabrication of customized implants
with complex geometry. The objective of this study was to investigate the initial cell–material …

Selective laser melting (SLM) of biodegradable metallic materials offers a great potential for
manufacturing customized implants. Herein, SLM processing of a novel Fe–30Mn–1C–0.02 …

Implant-related infections or inflammation are one of the main reasons for implant failure.
Therefore, different concepts for prevention are needed, which strongly promote the …

Abstract Commercially pure Fe, Fe35Mn, and (Fe35Mn) 5Ag alloys were prepared by
uniaxial pressing of the mixture of individual powders, followed by sintering. The influence of …

FeMn-based alloys are promising materials for vascular implant applications, especially due
to their superior mechanical properties and excellent processability. However, a further …