Control of inter/intra-granular κ-carbides and its influence on overall mechanical properties of a Fe-11Mn-10Al-1.25C low density steel.

In this study, a novel ultra-high yield strength Fe-11Mn-10Al-1.25C low density steel was developed with aiming to fundamentally understand the formation of inter/intra-granular κ -carbides and its influence on the overall mechanical properties by varying cooling patterns, e.g. air cooling (AC), water quenching (WQ) and intensive quenching (IQ). The results show that the IQ microstructure is almost fully austenitic with very fine intra-granular κ -carbides of less than 13 nm, which is totally different from the chain-like ferrite and coarse inter-granular κ -carbides of 0.6–2.6 µm in both cases of AC and WQ. In contrast, the IQ sample exhibits similar high YS and UTS values (~ 1.1 GPa) to the others but significantly an enhanced ductility of ~ 29.3%, revealing an excellent balance of strength and ductility, i.e. the product of strength and ductility (PSE) can reach as high as 32.1 GPa%. The improved overall performance and continuously increasing strain hardening are dominated by planar glide, which is mainly attributed to the uniform distribution of nano-sized and shearable κ -carbides in the austenitic matrix. These results may provide theoretical supports for the κ -carbides-related alloy design and microstructural modification of ultra-high-strength medium Mn low density steels. [ABSTRACT FROM AUTHOR]