Finite element analysis on temperature field and stress distribution of thermal barrier coatings by laser modification and CMAS corrosion

Corrosion Communications Pub Date : 2022-06-01 DOI:10.1016/j.corcom.2021.12.002

Jiayi Feng , Jing Wu , Lei Guo , Hexin Guo

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引用次数: 9

Abstract

Laser glazing to produce a modified layer on the surface of thermal barrier coatings (TBCs) is a promising method to alleviate calcium-magnesium-alumina-silicate (CMAS) attacks to coatings. In this study, finite element analysis is carried out to investigate the temperature field and stress distribution of TBCs after the laser glazing process and the modified TBCs after CMAS corrosion. Results revealed that along the direction of laser scanning, the principal stress was in a tensile state, which increased along the direction of the laser spot movement; while perpendicular to the laser scanning direction, the maximum principal stress appeared at the interface between the glazed layer and the unmodified coating, where could be a potential danger zone for crack initiation and coating spallation. For the modified TBCs with CMAS attack, in regions that are located in the range of 0–6 mm along the radial direction, the radial stress and maximum principal stress were high (∼1094 MPa), and the coating edge had complex shear stress state; as a result, these areas were easy to crack.

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激光改性和CMAS腐蚀热障涂层温度场和应力分布的有限元分析

激光上釉在热障涂层表面形成改性层是一种很有前途的减轻钙镁铝硅酸盐(CMAS)侵蚀涂层的方法。本文通过有限元分析研究了激光上光后tbc的温度场和应力分布，以及CMAS腐蚀后改性tbc的温度场和应力分布。结果表明:沿激光扫描方向，主应力处于拉伸状态，主应力沿激光光斑运动方向增大;在垂直于激光扫描方向时，最大主应力出现在釉层与未改性涂层之间的界面处，这可能是裂纹萌生和涂层脱落的潜在危险区域。在径向0 ~ 6 mm范围内，改性CMAS涂层的径向应力和最大主应力较高(~ 1094 MPa)，涂层边缘具有复杂的剪切应力状态;因此，这些区域很容易破裂。

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

Corrosion Communications

CiteScore

7.30

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0.00%

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