Continuously Cooled Ultrafine Bainitic Steel with Excellent Strength–Elongation Combination

Abstract

Serious efforts have been made to simultaneously improve the strength and ductility of steels for different applications. However, steel with the ultimate tensile strength (UTS) above 1200 MPa with minimum elongation of 20 pct is still difficult to produce. In the current work, an effort has been made to design such a steel that could be directly produced in any hot strip mill, after accelerated cooling on the runout table followed by coiling. Basically this steel consisted of C, Mn, Si, and Cr and the intended final microstructure at room temperature was about 80 pct carbide-free bainite and 20 pct retained austenite. The steel was exposed to a thermal treatment which is generally experienced by a hot strip coil. This newly developed steel possesses an UTS of minimum ~1370 MPa with minimum ~21 pct elongation. The combination of such encouraging mechanical properties can be primarily attributed to the formation of ultrafine bainite plates (~100 to 130 nm) and a high density of dislocations arising out of the bainitic transformation. The presence of sufficient quantity of retained austenite (minimum 21 pct) in the final microstructure could be the reason for the attainment of outstanding ductility values at such a high strength level.