Abstract Electron Beam Melting (EBM) is a powder-bed additive manufacturing technology
enabling the production of complex metallic parts with generally good mechanical …

A novel quenching and partitioning (Q&P) processing was applied to the steel Fe-15Cr-3Ni-
3Mn-0.5 Si-0.12 N-0.16 C (wt.-%) with an almost fully austenitic microstructure in the solution …

To obtain steel powders with significantly reduced density and improved corrosion
resistance, stainless steels were alloyed with aluminum at various contents (0.1–6 mass%) …

By means of a simplified quenching and partitioning (Q&P) processing with quench
temperature equal to room temperature, austenite fractions of 56, 43, and 24 vol% are …

The austenite-stabilizing effect of carbon on the martensitic transformation behavior and the
temperature dependent tensile properties of five Fe–15Cr–3Mn–3Ni–0.1 N–(0.05–0.25 C) …

The activation of different deformation mechanisms in high-alloy austenitic steels depends
strongly on the concentration of the alloying elements, as they change the driving force for …

The effects of Co and Co+ Al addition on the microstructure, deformation-induced processes,
and mechanical properties of a wrought Fe–14Cr–9Ni–3Mn–0.3 C austenitic stainless steel …

The influence of Al on the temperature dependence of deformation mechanisms in
metastable austenitic stainless steels was investigated by tensile tests in the temperature …

The influence of martensite fraction (f α′) on the stabilization of austenite was studied by
quench interruption below M s temperature of an Fe-13Cr-0.31 C (mass pct) stainless steel …

Two austenitic stainless steels of compositions Fe–17Cr–9Ni–6Mn–0.4 C–(0 and 4) Al
(mass-%) were tensile tested at temperatures between− 196° C and 200° C. The influence …