Absorbable metals, metals that corrode in physiological environment, constitute a new class
of biomaterials intended for temporary medical implant applications. The introduction of …

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

Advanced additive manufacturing techniques have been recently used to tackle the two
fundamental challenges of biodegradable Fe-based bone-substituting materials, namely low …

Extrusion-based 3D printing followed by debinding and sintering is a powerful approach that
allows for the fabrication of porous scaffolds from materials (or material combinations) that …

Shape memory alloys (SMAs) have a wide range of potential novel medical applications due
to their superelastic properties and ability to restore and retain a 'memorised'shape …

Additively manufactured biodegradable porous iron has been only very recently
demonstrated. Two major limitations of such a biomaterial are very low biodegradability and …

Advanced oxidation processes (AOPs) applied to wastewater treatment have become
increasingly well developed and the ability of a single technology to remove difficult organic …

Abstract Iron (Fe) and Fe‐based scaffolds have become a research frontier in absorbable
materials which is inherent to their promising mechanical properties including fatigue …

In this study, porous iron (Fe)–manganese (Mn) alloys with high porosity were successfully
prepared by sponge impregnation and sintering (SIS). The compositions of the porous Fe …

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