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 …

Fe-Mn-Al-C lightweight steels have been investigated intensely in the last a few years. There
are basically four types of Fe-Mn-Al-C steels, ferritic, ferrite-based duplex/triplex (ferrite+ …

In present study two different austenitic based low-density steel (LDS) grades with
compositions of Fe–28Mn–9Al-0.9 C and Fe–15Mn–9Al-0.9 C–5Ni (in weight percent) were …

In the current work, the microstructure evolution, mechanical stability of austenite and the
micro-mechanical response of tensile deformed Fe-0.18 C-4Al-7Mn (Wt%) steel are …

Hot compression testing was performed on specimens of an Fe–30Mn–9Al–1Si-0.9 C-0.5
Mo wt.% low density steel which were extracted from an industrial casting with large grain …

The influence of rolling and subsequent aging on the microstructures and tensile properties
of an austenitic Fe–23.38 Mn–6.86 Al–1.43 C–0.038 Nb–0.29 Mo steel was systematically …

A critical assessment has been performed to determine the stacking fault energy (SFE) of the
austenite phase in high manganese steels using X-ray diffraction (XRD). It was found that …

The flow behavior and microstructure of Fe-Mn-Al-C austenitic steel and Nb-V microalloyed
Fe-Mn-Al-C austenitic steel during uniaxial hot compression deformation are systematically …

The hot deformation behavior and microstructure evolution of Fe-Mn-Al-C steel, which has
lamellar ferrite and equal axial shape austenite heterostructures, were studied using the …

Abstract Fe-Mn-Al-C high-manganese steels with a combination of good strength and
ductility are required in industrial applications. Herein, Fe-27Mn-10Al-1.4 C (wt.%) …