Topological phase inversion after long-term thermal exposure of nickel-base superalloys: Experiment and phase-field simulation

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• 作者：J.V. Goerler^a ; ^{johannes.goerler@rub.de} ; I. Lopez-Galilea^b ; L. Mujica Roncery^b ; O. Shchyglo^a ; W. Theisen^b ; I. Steinbach^a
• 关键词：Ni-base superalloys ; Long-term aging ; Topological inversion ; Phase-field method
• 刊名：Acta Materialia
• 出版年：2017
• 出版时间：1 February 2017
• 年：2017
• 卷：124
• 期：Complete
• 页码：151-158
• 全文大小：2115 K
• 卷排序：124

文摘

Ni-base superalloys are materials which are designed to resist extreme thermal and mechanical conditions. In this regard, an essential factor is their microstructure consisting of γ′ precipitates embedded in a γ matrix. The application of superalloys at high temperatures can however induce the topological phase inversion, where the γ′-phase topologically becomes the matrix phase, resulting in subpar material properties. In this work, the topological inversion is analyzed via experiment and phase-field simulation. The evolution of the microstructure has been quantified in the second generation single crystal Ni-base superalloy ERBO/1, which belongs to the family of CMSX-4, submitted to long-term aging at 1100° C for up to 250 h. Phase-field simulations carried out using a multi phase-field approach deliver insight into the microstructure evolution driven by the loss of coherency of the γ′ precipitates, which is induced by the accumulation of dislocations at the γ/γ′ interfaces. The obtained simulation results are in good agreement with the experimental results, and indicate that the mechanisms causing the topological inversion are linked to the accommodation of the lattice misfit, which enables coalescence and ripening of γ′ precipitates.