Hot Deformation Behavior of Alloy 800H at Intermediate Temperatures: Constitutive Models and Microstructure Analysis

摘要

The hot deformation behavior of a Fe-Ni-Cr austenitic Alloy 800H was explored in the intermediate temperature range of 825-975 A degrees C and strain rate range of 0.01-10 s(-1). The study indicates that dynamic recrystallization (DRX) occurred at 875-975 A degrees C for strain rates of 0.01-0.1 s(-1) and adiabatic heating generated at high strain rates accelerated the DRX process. Based on the experimental data, the Johnson-Cook, modified Johnson-Cook, and Arrhenius-type constitutive models were established to predict the flow stress during hot deformation. A comparative study was made on the accuracy and effectiveness of the above three developed models. The microstructure analysis indicated that all the deformation structures exhibited elongated grains and evidence of some degree of DRX. The multiple DRX at 975 A degrees C and 0.01 s(-1) led to an increase in the intensity of {001} < 100 > "cube" texture component and a significant reduction in the intensity of {011} < 211 > "brass" component. Additionally, the average values of grain average misorientation and grain orientation spread for deformed microstructure were inversely proportional to the fraction of DRX.