Abstract
Abstract In this article, a novel quenching–partitioning–tempering (Q–P–T) process was applied to a Fe–0.25C–1.5Mn–1.2Si–1.5Ni–0.05Nb (wt%) hot-rolled steel, and its optimized parameters were obtained by a Gleeble-3500 thermal simulator and salt baths, respectively. Mechanical property results of the as-treated Q–P–T samples show that the Nb-microalloyed low-carbon steels subjected to Q–P–T processes cover a wide spectrum of strength (1200–1500 MPa) and elongation (14–18%), and exhibit excellent product of strength and elongation (21,000–22,000 MPa%). Microstructural characterization indicates that high strength results from dislocation-type martensite laths and dispersively distributed fcc NbC or hcp ɛ-carbides in martensite matrix and good ductility is attributed to transformation induced plasticity (TRIP) effect from plenty of retained austenite flakes between martensite laths.
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