The Effect of Nb/Mo on the Microstructures and Mechanical Properties of Fe-Mn-Al-Ni-C Austenitic Steels

The microstructures and mechanical properties of Fe-24Mn-10Al-6Ni-1C steels microalloyed by Nb, Mo, and Nb-Mo coaddition in both solid solution and aging states are evaluated. The results show that the addition of Nb, Mo, or Nb-Mo leads to a decrease in austenitic grain size and a suppression in & kappa;-carbides precipitation during aging. Besides, Mo slightly promotes precipitation of both B2 bands and particles as a ferrite stabilizer. However, Nb and Nb-Mo increase the volume fraction of B2 particles together with decreasing B2 bands due to the formation of NbC and (Nb, Mo)C. The strengths and ductility are improved simultaneously after adding microalloying elements. The coaddition of Nb-Mo achieves a best combination of strength and ductility. After aging, the precipitation of & kappa;-carbides and B2 leads to a further enhancement in yield strength but a reduction in plasticity for all the experimental steels. Additionally, the effect of Nb/Mo on the strain hardening behavior is also analyzed.

Automated summary

The microstructures and mechanical properties of Fe-24Mn-10Al-6Ni-1C steels microalloyed by Nb, Mo, and Nb-Mo coaddition in both solid solution and aging states are evaluated. The addition of Nb, Mo, or Nb-Mo leads to a decrease in austenitic grain size and suppression in κ-carbides precipitation during aging. The strengths and ductility of the steels are improved after adding microalloying elements, with the coaddition of Nb-Mo achieving the best combination of strength and ductility. However, the precipitation of κ-carbides and B2 particles during aging reduces the plasticity of the steels.