热等静压态FGH96合金的热压缩变形行为和微观组织演化(英文)

通过热压缩实验研究热等静压态FGH96合金的热变形行为和微观组织演化过程。基于Gleeble-1500,在1000~1150°C和0.001~1.0s-1的条件下进行热压缩实验。对应力—应变数据进行拟合分析,建立FGH96合金的双曲正弦函数形式的本构关系,其形变热激活能为693.21kJ/mol。对各变形条件下的FGH96合金的组织分析表明:在1100°C以上和以下分别发生完全和部分动态再结晶,在高变形温度和低应变速率条件下动态再结晶更容易发生。建立FGH96合金在热加工过程中的动态再结晶的动力学方程和晶粒尺寸演化方程。

Hot compressive deformation behavior and microstructure evolution of HIPed FGH96 superalloy

Hot deformation behavior and microstructure evolution of hot isostatically pressed FGH96 P/M superalloy were studied using isothermal compression tests. The tests were performed on a Gleeble-1500 simulator in a temperature range of 1000-1150 °C and strain rate of 0.001-1.0 s-1, respectively. By regression analysis of the stress—strain data, the constitutive equation for FGH96 superalloy was developed in the form of hyperbolic sine function with hot activation energy of 693.21 kJ/mol. By investigating the deformation microstructure, it is found that partial and full dynamical recrystallization occurs in specimens deformed below and above 1100 °C, respectively, and dynamical recrystallization (DRX) happens more readily with decreasing strain rate and increasing deformation temperature. Finally, equations representing the kinetics of DRX and grain size evolution were established.