Kinetic Behavior and Microstructure of Pearlite Isothermal Transformation Under High Undercooling

Abstract

The kinetic behavior of highly undercooled austenite and its effects on the microstructural evolution and mechanical properties of high-carbon steel are studied. The undercooling degree is increased through a temporary undercooling treatment at the bainite transformation temperature of 380 °C to 450 °C before the pearlite isothermal transformation at 500 °C to 620 °C. The transformation kinetics reveals an increased nose temperature and a rightward shift of the transformation curve under high undercooling conditions. In addition, the undercooling treatment leads to an increased driving force during pearlite transformation, which is responsible for the refined hierarchical structures of pearlite. As a result, a 20 to 40 pct size reduction is achieved for pearlite colonies and lamellae. Such refinement is in turn attributed to an ~ 26 pct increase in reduction in area. This work provides both a new understanding of high-performance fully pearlitic steels for practical applications and new perspectives for potential technological applications in drawing processes for hypoeutectoid steels.