Damage mechanisms and lifetime behavior of plasma-sprayed thermal barrier coating systems for gas turbines - Part II: Modeling

Beck T; Herzog R; Trunova O; Offermann M; Steinbrech RW; Singheiser L

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Damage mechanisms and lifetime behavior of plasma-sprayed thermal barrier coating systems for gas turbines - Part II: Modeling

机译：燃气轮机等离子喷涂热障涂层系统的损坏机理和寿命行为-第二部分：建模

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A phenomenological lifetime prediction tool for plasma-sprayed ZrO2 based thermal barrier coating systems with MCrAlY bondcoat is presented, The analytical model uses a two step approach for Calculating the development of delamination cracks: The initial crack growth is considered to be proportional to the thickness of the thermally grown oxide (TGO) scale on the bondcoat. After exceeding a Critical TGO thickness, crack propagation is governed by linear elastic fracture mechanics taking into account stresses induced by thermal mismatch and by TGO growth. Validation using experimental data from thermal cycling tests with high temperature dwell times from few seconds up to 96 h gave evidence of the good predictive quality of the model. (C) 2008 Elsevier B.V. All rights reserved.

机译：提出了一种采用MCrAlY粘结涂层的等离子喷涂基于ZrO2的热障涂层系统的现象寿命预测工具，该分析模型采用两步法来计算分层裂纹的发展：初始裂纹扩展被认为与涂层厚度成正比。粘结涂层上的热生长氧化物（TGO）氧化皮。超过临界TGO厚度后，裂纹扩展由线性弹性断裂力学控制，其中考虑了由热失配和TGO增长引起的应力。使用来自热循环测试的实验数据进行验证，并具有从几秒钟到96小时的高温停留时间，证明了该模型的良好预测质量。（C）2008 Elsevier B.V.保留所有权利。

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《Surface & Coatings Technology》 |2008年第24期|共8页
作者
Beck T; Herzog R; Trunova O; Offermann M; Steinbrech RW; Singheiser L;
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正文语种 eng
中图分类金属腐蚀与保护、金属表面处理;
关键词
Thermal barrier coating; Thermal cycling; Lifetime prediction; TGO growth; Crack propagation; EB-PVD TBCS; OXIDATION BEHAVIOR; NUMERICAL-SIMULATION; MCRALY COATINGS; STRESS STATE; OXIDE; MICROSTRUCTURE; DELAMINATION; CRACKING;

机译：隔热涂层;热循环;寿命预测;TGO增长;裂纹扩展;EB-PVD TBCS;氧化行为;数值模拟;微熔涂层;应力状态;氧化物;微观结构;脱层;裂纹;

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1. Damage mechanisms and lifetime behavior of plasma-sprayed thermal barrier coating systems for gas turbines - Part II: Modeling [J] . Beck T, Herzog R, Trunova O, Surface & Coatings Technology . 2008,第24期

机译：燃气轮机等离子喷涂热障涂层系统的损坏机理和寿命行为-第二部分：建模
2. Bilayer Suspension Plasma-Sprayed Thermal Barrier Coatings with Enhanced Thermal Cyclic Lifetime: Experiments and Modeling [J] . Gupta Mohit, Kumara Chamara, Nylen Per Journal of Thermal Spray Technology . 2017,第6期

机译：双层悬浮等离子体喷涂的热阻挡涂层，具有增强的热循环寿命：实验和建模
3. Tensile damage evolution behavior in plasma-sprayed thermal barrier coating system [J] . Qian LH., Zhu SJ., Kagawa Y., Surface & Coatings Technology . 2003,第2a3期

机译：等离子喷涂热障涂层系统中的拉伸损伤演化行为
4. Probabilistic lifetime prediction of TBC coated parts considering design, operation and manufacturing + Thermal barrier coatings ageing mechanisms in land-based gas turbines [C] . Hans Peter Bossmann, Gregoire Witz Thermal Barrier Coatings IV . 2014

机译：考虑设计，运行和制造的TBC涂层零件的概率寿命预测+陆基燃气轮机的热障涂层老化机理
5. Mechanisms of lifetime improvement in thermal barrier coatings with hafnium and/or yttrium modification of CMSX-4 superalloy substrates. [D] . Liu, Jing. 2007

机译：ha和/或CMSX-4高温合金钇修饰的热障涂层寿命改善机理。
6. Inaugural ArticleFrom the Cover: Atomic-scale insight and design principles for turbine engine thermal barrier coatings from theory [O] . Kristen A. Marino, Berit Hinnemann, Emily A. Carter 2011

机译：封面文章：理论上的涡轮发动机隔热涂层的原子尺度见解和设计原理
7. Bilayer Suspension Plasma-Sprayed Thermal Barrier Coatings with Enhanced Thermal Cyclic Lifetime: Experiments and Modeling [O] . Mohit Gupta, Chamara Kumara, Per Nylén 2017

机译：双层悬浮等离子体喷涂的热阻挡涂层，具有增强的热循环寿命：实验和建模

Damage mechanisms and lifetime behavior of plasma-sprayed thermal barrier coating systems for gas turbines - Part II: Modeling

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