Promoting ductility and formability in a carbide free bainitic steel via pre-annealing treatment

This study aimed to overcome the existing trade-off in strength–ductility in carbide free bainitic steel and improve ductility without compromising strength. Herein, we proposed a novel and simple method to obtain Mn-rich cementite via a pre-annealing (PA) treatment. PA promoted the partitioning of Mn into cementite particles. The Mn-rich cementite increased the Mn content in the retained austenite (RA) and enhanced the RA stability. Moreover, the initial number of Mn-rich cementite microstructures is positively correlated with RA. The effect of PA on the bainitic ferrite (BF) content was evaluated via comparison with the non-PA sample, revealing that the PA treatment promoted BF nucleation and increased the BF content. The PA-treated samples exhibited the optimal transformation induced plasticity (TRIP) effect and mechanical properties; in particular, the PA-3 sample (with 3 h treatment period) improved ductility and formability, with the total elongation increased from 11.9% in the non-PA sample to 18.0% in the PA-3 sample, corresponding to an increase of ∼51.2%. Additionally, the Erichsen cupping value increased from 7.52 mm in the non-PA sample to 9.78 mm in the PA-3 sample, corresponding to an increase of 30.1%. The overall applicability of PA for the improvement of formability of the carbide free bainitic steel is evident in all PA-treated samples. •The PA treatment is a novel and simple way to improve the ductility and formability of the material.•The PA promoted the partitioning of Mn into cementite particles.•The Mn-rich cementite results in Mn enrichment in the retained austenite (RA) and enhanced the RA stability.•The PA treatment reduced fresh martensite content and improved bainitic ferrite content.•Excellent strength and ductility in low-carbon bainitic steel was obtained via short-term PA treatment.