Phase Transformation Kinetics of a FCC Al_0.25CoCrFeNi High-Entropy Alloy during Isochronal Heating

The phase transformation kinetics of a face-centered-cubic (FCC) Al_0.25CoCrFeNi high-entropy alloy during isochronal heating is investigated by thermal dilation experiment. The phase transformed volume fraction is determined from the thermal expansion curve, and results show that the phase transition is controlled by diffusion controlled nucleation-growth mechanism. The kinetic parameters, activation energy and kinetic exponent are determined based on Kissinger⁻Akahira⁻Sunose (KAS) and Johnson⁻Mehl⁻Avrami (JMA) method, respectively. The activation energy and kinetic exponent determined are almost constant, indicating a stable and slow speed of phase transition in the FCC Al_0.25CoCrFeNi high-entropy alloy. During the main transformation process, the kinetic exponent shows that the phase transition is diffusion controlled process without nucleation during the transformation.