Effect of Alloying Elements on Microstructure and Mechanical Properties of Air-Cooled Bainitic Steel

In the present investigation, a carbide-free bainitic steel has been produced in the laboratory through the air cooling route. Optimization of the alloying elements was done based on thermodynamic and kinetic calculations. Emphasis was given to obtain ultrafine bainitic microstructure by maximizing the driving force and lowering the transformation temperature of bainite formation. In addition to bainite, the microstructure contained a small amount of austenite and martensite. It was observed that Mn decreases G to a greater extent as compared to Cr and Si. Therefore, a low Mn-high Cr alloy exhibited large driving force and low B-s temperature. Si promoted carbon partitioning in the adjacent austenite to make it more stable. Therefore, the transformation of deformation-induced martensite from the retained austenite during the deformation process was restricted, resulting in higher toughness of the alloy. Thus, the air-cooled bainitic steel produced in lab scale showed better strength, toughness, and hardness than the conventional bainitic steel produced by the isothermal route. (C) The Minerals, Metals & Materials Society and ASM International 2019