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A Novel Fatigue Damage Accumulation Rule for Superalloy
  • Zhiyuan Gao,
  • Xiaomo Jiang,
  • Mingqing Cui
Zhiyuan Gao
Dalian University of Technology School of Energy and Power Engineering
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Xiaomo Jiang
Dalian University of Technology School of Energy and Power Engineering

Corresponding Author:xiaomojiang2019@dlut.edu.cn

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Mingqing Cui
Dalian University of Technology School of Energy and Power Engineering
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Abstract

The fatigue damage accumulation behavior of GH4169 superalloy was studied through two-level loading fatigue tests based on an electromagnetic resonance testing machine. A total of 178 experimental data points and 13 S-N curves were obtained. By comparing and analyzing experimental data, the influence of stress and fatigue damage in the first-level loading on the residual fatigue life of the material was studied. The effect of first-level fatigue damage on the residual fatigue life of different second-level stresses was explained. A new fatigue damage accumulation rule was proposed and validated using several nonlinear fatigue cumulative damage models. The results indicate that this rule can serve as a criterion for evaluating the accuracy of fatigue cumulative damage models.