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Low cycle fatigue behaviour of a single crystal Ni-based superalloy with a central hole: Effect of inhomogeneous rafting microstructure

2021; Elsevier BV; Volume: 153; Linguagem: Inglês

10.1016/j.ijfatigue.2021.106467

1879-3452

Xiaoguang Yang, Li Tan, Tianxiao Sui, Duoqi Shi, Yongquan Fan,

Microstructure and Mechanical Properties of Steels

To revealing the role of unevenly microstructural rafting caused by stress gradient on the fatigue resistance of engineering parts made by single crystal (SC) Ni-based superalloys, a stress-control low cycle fatigue (LCF) experiments were performed at 980 °C with a 0.1 stress ratio of central-hole specimens that underwent different pre-rafting treatments. An image process algorithm and field emission scanning electron microscope (FE-SEM) were employed to given a quantitative description of the rafting field near the central hole experimentally. Within half radius of the central hole, the rafting state defined in the present work presents obvious gradient, which disappears with the deterioration of rafting conditions. The rafting morphology tends to be uniform that weakens the effect of inhomogeneous rafting microstructure on LCF resistance as the rafting state exceeds 0.6. The worsening of fatigue resistance is ascribed to the comprehensive degradation effect of rafting, even resulting in 90% reduction of fatigue life compared with the virgin state. Moreover, it was found that rafting changed the initial orientation of fatigue cracks, whereas the crack always propagated along the boundary of micro twins at the late life stage. Finally, an analytical model was proposed to given a quantitative linkage between the inhomogeneous rafting microstructure and the reduction of fatigue resistance.