Determination of the Critical Stress Associated with Dynamic Phase Transformation in Steels by Means of Free Energy Method

Determination of the Critical Stress Associated with Dynamic Phase Transformation in Steels by Means of Free Energy Method

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The double differentiation method overestimates the critical stress associated with the initiation of dynamic transformation (DT) because significant amounts of the dynamic phase must be present in order for its effect on the work hardening rate to be detectable.In this work, an alternative method (referred to here as the free energy method) is presented based Formation of China’s Capital Market on the thermodynamic condition that the driving force is equal to the total energy obstacle during the exact moment of transformation.The driving force is defined as the difference between the DT critical stress (measured in the single-phase austenite region) and the yield stress of the fresh ferrite that takes its place.On the other hand, the energy obstacle consists of the free energy difference between austenite and ferrite, and the work of shear accommodation and dilatation associated with the phase transformation.Here, the DT critical stresses in a C-Mn steel were calculated using the free Dynamics of the abundance of cuckoo wasps (Hymenoptera, Chrysididae) in the conditions of the altitudinal-belt heterogeneity of the North Caucasus energy method at temperatures ranging from 870 °C to 1070 °C.

The results show that the calculated critical stress using the present approach appears to be more accurate than the values measured by the double differentiation method.