Modeling 3D TGO dynamic growth and stresses and the resulting modes of buckling failure in thermal barrier coatings

IF 3.5 3区材料科学 Q1 MATERIALS SCIENCE, CERAMICS

Journal of the American Ceramic Society Pub Date : 2024-07-25 DOI:10.1111/jace.20020

Jiarui Zhang, Wenqi Guo, Yanting Ai, Yudong Yao, Tong Li, Haigen Zhao

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Abstract

Based on experimental data, this study presents a model of the dynamic growth of a thermally grown oxide (TGO) in thermal barrier coatings (TBCs) during thermal cycling. The model was solved using the finite element method. The thermal stress results of the model were compared with experimental results to verify the accuracy of the model. The stress analysis revealed that the combined effect of radial tensile stress and circumferential compressive stress can lead to the delamination of TBCs in a buckling form, which can induce the formation of cracks in TBCs along the axial direction. This observation was consistent with the conclusions drawn from the experimental results. Crack initiation and propagation result from the action of the maximum shear and radial stresses. In addition, the relationship between buckling failure and microscopic cracks was investigated. Thermal cycling induces radial and circumferential cracks, leading to buckling, delamination, and ultimate coating failure as the radial and circumferential cracks interact at the interface.

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三维 TGO 动态生长和应力建模，以及由此产生的隔热涂层屈曲失效模式

根据实验数据，本研究提出了热循环过程中热障涂层（TBC）中热生长氧化物（TGO）的动态生长模型。该模型采用有限元法求解。模型的热应力结果与实验结果进行了比较，以验证模型的准确性。应力分析表明，径向拉应力和周向压应力的共同作用会导致 TBC 以屈曲形式分层，从而诱发 TBC 沿轴向形成裂纹。这一观察结果与实验结果得出的结论一致。最大剪应力和径向应力的作用导致了裂纹的产生和扩展。此外，还研究了屈曲失效与微观裂纹之间的关系。热循环会诱发径向和周向裂纹，当径向和周向裂纹在界面上相互作用时，会导致屈曲、分层和最终涂层失效。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of the American Ceramic Society 工程技术-材料科学：硅酸盐

CiteScore

7.50

自引率

7.70%

发文量

590

审稿时长

2.1 months

期刊介绍： The Journal of the American Ceramic Society contains records of original research that provide insight into or describe the science of ceramic and glass materials and composites based on ceramics and glasses. These papers include reports on discovery, characterization, and analysis of new inorganic, non-metallic materials; synthesis methods; phase relationships; processing approaches; microstructure-property relationships; and functionalities. Of great interest are works that support understanding founded on fundamental principles using experimental, theoretical, or computational methods or combinations of those approaches. All the published papers must be of enduring value and relevant to the science of ceramics and glasses or composites based on those materials. Papers on fundamental ceramic and glass science are welcome including those in the following areas: Enabling materials for grand challenges[...] Materials design, selection, synthesis and processing methods[...] Characterization of compositions, structures, defects, and properties along with new methods [...] Mechanisms, Theory, Modeling, and Simulation[...] JACerS accepts submissions of full-length Articles reporting original research, in-depth Feature Articles, Reviews of the state-of-the-art with compelling analysis, and Rapid Communications which are short papers with sufficient novelty or impact to justify swift publication.

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