Lifetime Prediction of Single Crystal Nickel-Based Superalloys - HAL UNIV-PARIS8 - open access
Article Dans Une Revue Applied Sciences Année : 2024

Lifetime Prediction of Single Crystal Nickel-Based Superalloys

Résumé

Single crystal nickel-based superalloys are extensively used in turbine blade applications due to their superior creep resistance compared to their polycrystalline counterparts. With the high creep resistance, high cycle fatigue (HCF) and low cycle fatigue (LCF) become primary failure mechanisms for such applications. This study investigates the fatigue life prediction of CMSX-4 using a combination of crystal plasticity and lifetime assessment models. The constitutive crystal plasticity model simulates the anisotropic, rate-dependent deformation behavior of CMSX-4, while the modified Chaboche damage model is used for lifetime assessment, focusing on cleavage stresses on active slip planes to include anisotropy. Both qualitative and quantitative data obtained from HCF experiments on single crystal superalloys with notched geometry were used for validation of the model. Furthermore, artificial neural networks (ANNs) were employed to enhance the accuracy of lifetime predictions across varying temperatures by analyzing the fatigue curves obtained from the damage model. The integration of crystal plasticity, damage mechanics, and ANNs resulted in an accurate prediction of fatigue life and crack initiation points under complex loading conditions of single crystals superalloys.

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Dates et versions

hal-04858784 , version 1 (30-12-2024)

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Ça Gatay Kasar, Utku Kaftancioglu, Emin Bayraktar, Ozgur Aslan. Lifetime Prediction of Single Crystal Nickel-Based Superalloys. Applied Sciences, 2024, ⟨10.3390/app15010201⟩. ⟨hal-04858784⟩
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