Construction of three-dimensional dynamic growth TGO (thermally grown oxide) model and stress simulation of 8YSZ thermal barrier coating

• Published in: Ceramics international Vol. 48; no. 4; pp. 5327 - 5337
• Main Authors: Deng, Chen, Zheng, Runguo, Wang, Lin, Zhang, Shiyu, Lin, Xiaoping, Ding, Kunying
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 15.02.2022
• Subjects: Stress distribution; TGO dynamic Growth; Thermal barrier coating; Three-dimensional model; Three-dimensional model; TGO dynamic Growth; Stress distribution; Thermal barrier coating
• ISSN: 0272-8842; 1873-3956
• DOI: 10.1016/j.ceramint.2021.11.076

A three-dimensional cylindrical numerical simulation physical and geometric model of TBCs sinusoidal surface was established based on the ultrasonic C-scan results of 8YSZ coating after thermal cycling. The stress distribution and evolution law of the TGO/BC interface and sample center and edge affected by TGO growth were simulated by the finite-element method. The results show that the stress at the TGO/BC interfaces changes from compressive stress to tensile stress with the increase of the number of thermal cycles. The center of the interface is distributed with large radial, circumferential and axial tensile stresses, while the edge of the sample is affected by thermal mismatch, which shows that shear stresses are alternately distributed in the XZ direction. The tensile stress at the center and the shear stress at the edge are the main reasons for the failure of the core and edge flakes of the thermal barrier coating. The linear elasticity, creep effect, fatigue effect and stress accumulation effect of each layer of TBCs in each thermal cycle period are fully considered by the model, which reveals the reason why the core and edges of the thermal barrier coating are most likely to form cracks.