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Piyush Kumar,Reliance Jain,M. R. Rahul,Abhijit Ghosh,Sumanta Samal,Gandham Phanikumar 대한금속·재료학회 2023 METALS AND MATERIALS International Vol.29 No.9
The present study explores the high temperature deformation behavior of FeCoNiCrAlTi dual phase high entropy alloy(henceforth referred to as DP-HEA) in the temperature range of 900–1100 °C (1173–1373 K) and the strain rate varyingfrom 0.001 to 0.1 s−1. The as-cast sample has been characterized using scanning electron microscopy, X-ray diffraction,and differential scanning calorimetry, which reveals the presence of two phases, disordered γ and ordered γ′. A constitutiverelationship between the process parameters (stress temperature, strain, and strain rate) has been drawn using the Arrheniustypeequation to recognize the high temperature deformation behavior of the DP-HEA. The optimum thermomechanicalprocessing window of the DP-HEA has been determined by constructing multiple contour maps based on different parameterssuch as efficiency, strain rate sensitivity, etc. And the optimum processing domain has been found to lie approximately in thetemperature range of 1260–1300 K and SR = 10–2.3–10–2 s−1, 1325–1373 K and SR = 10–1.4–10–1 s−1 & 1173–1193 K andSR = 10–1.3–10–1.55 s−1. Finally, the stable and unstable regimes in the processing maps are correlated with the microstructureof hot deformed samples.