This is a viewpoint paper on recent progress in the understanding of the microstructure–
property relations of advanced high-strength steels (AHSS). These alloys constitute a class …

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 …

This review introduces the structural phases, microstructural characteristics, and the most
relevant room and cryogenic properties of low density Fe–Mn–Al–C steels. The combination …

The tetragonal ternary borides Mo2MB2 (M= Fe, Mn) and their solid solutions are promising
candidates for tungsten-free wear-resistant alloys. In this study, we investigated the …

High-manganese steels (HMnS) are alloys with outstanding mechanical properties, but their
application is inhibited by inherent limitations in conventional processing. Additive …

The development of novel alloys specifically designed for additive manufacturing (AM) is a
key factor in using the full potential of AM. This study addresses the design of advanced high …

Laser beam directed energy deposition (DED-LB) differs from other metal additive
manufacturing (AM) methods as it allows high building rates and manufacturing of multi …

We have investigated the influence of 101 mass ppm hydrogen content on the room
temperature deformation structure and mechanical behavior of an austenitic Fe30Mn6. 5Al0 …

In additive manufacturing processes, solidification velocities are extremely high in
comparison to ordinary directional solidification. Therefore, the dependencies of the primary …

The development of multi-principal element alloys requires the navigation within a multi-
dimensional composition space, which has proven to be challenging. Various methods to …