材料科学
应变率
等温过程
流动应力
本构方程
阿累尼乌斯方程
热力学
变形(气象学)
绝热过程
合金
大气温度范围
拉伤
压缩(物理)
机械
冶金
复合材料
有限元法
动力学
物理
经典力学
内科学
医学
作者
Shuo Yang,Yugui Li,Yaohui Song,Bin Wang,Yuewu Zheng,Xiaobiao Liu,Yao Li
标识
DOI:10.17222/mit.2022.496
摘要
On a Gleeble-3800 simulator, isothermal hot compression tests of an as-cast N06625 nickel-based alloy were conducted in a wide range of temperatures (950–1200 °C) and strain rates (0.1–50 s–1). Considering the influence of friction and adiabatic heating in the test, the flow curves were corrected. A modified Johnson-Cook, strain-compensated Arrhenius-type and modified Hensel-Spittel constitutive models were established based on the corrected flow curves. In a hot compression test, the flow stress is mainly affected by the coupling of the temperature, strain rate and strain, so the consideration of the coupling effect greatly affects the accuracy of the constitutive model. Moreover, different materials have different sensitivities to the three conditions. Therefore, the improved model in this paper can improve its universality and accuracy after adding relevant parts to it. The models were compared using the correlation coefficient (R) and average absolute relative error (AARE) to determine their accuracy in predicting the deformation behavior of the above alloy. According to our findings, the strain-compensated Arrhenius-type model provided the greatest forecast accuracy over the whole temperature and strain rate range. Under a certain temperature and strain rate, the modified Johnson-Cook model provided the best prediction accuracy.
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