ENVIRONMENTAL BARRIER COATING FRACTURE, FATIGUE AND HIGH-HEAT-FLUX ENVIRONMENT FAILURE MECHANISMS AND STOCHASTIC PROGRESSIVE DAMAGE SIMULATION

机译：环境屏障涂层骨折，疲劳和高温通量环境破坏机制和随机逐步损伤模拟

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Advanced environmental barrier coatings will play an increasingly important role in future gas turbine engines because of their ability to protect emerging light-weight SiC/SiC ceramic matrix composite (CMC) engine components, further raising engine operating temperatures and performance. Because the environmental barrier coating systems are critical to the performance, reliability and durability of these hot-section ceramic engine components, a prime-reliant coating system along with established life design methodology are required for the hot-section ceramic component insertion into engine service.

机译：先进的环境屏障涂层将在未来的燃气轮机发动机中发挥越来越重要的作用，因为它们能够保护新出现的轻型SiC / SiC陶瓷矩阵复合材料（CMC）发动机部件，进一步提高发动机工作温度和性能。由于环境屏障涂布系统对这些热截面陶瓷发动机部件的性能，可靠性和耐用性至关重要，因此将素粘性涂层系统以及既定寿命设计方法的热段陶瓷部件插入发动机服务。

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《Conference on Advanced Ceramic Matrix Composites: Science and Technology of Materials, Design, Applications, Performance and Integration》|2018年|59p|共1页
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Dongming Zhu; Noel N. Nemeth;
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中图分类 TB33-53;
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Environmental barrier coatings (EBCs); Ceramic matrix composites (CMCs); Finite Element Analysis-Micromechanics Analysis Code(FEAMAC); Ceramics Analysis and Reliability Evaluation of Structures(CARES); Mechanical creep and fatigue loading conditions;

机译：环境屏障涂层（EBCS）;陶瓷基质复合材料（CMC）;有限元分析 - 微机械分析代码（FEAC）;结构（关心）的陶瓷分析和可靠性评估;机械蠕变和疲劳负载条件;

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专利

1. Phase-angle effects on damage mechanisms of thermal barrier coatings under thermomechanical fatigue [J] . B. Baufeld, E. Tzimas, P. Hahner Scripta materialia . 2001,第7期

机译：相角对热机械疲劳下隔热涂层损伤机理的影响
2. Failure mechanisms of coin-type plasma-sprayed thermal barrier coatings with thermal fatigue [J] . Kim D.-J., Shin I.-H., Koo J.-M., Surface & Coatings Technology . 2010,第S1期

机译：具有热疲劳的硬币型等离子喷涂热障涂层的失效机理
3. Microscale fracture mechanisms of HfO2-Si environmental barrier coatings [J] . Robertson Andrew L., Sola Francisco, Zhu Dongming, Journal of the European Ceramic Society . 2019,第7期

机译：HFO2-Si环境屏障涂层的微观骨折机制
4. ENVIRONMENTAL BARRIER COATING FRACTURE, FATIGUE AND HIGH-HEAT-FLUX ENVIRONMENT FAILURE MECHANISMS AND STOCHASTIC PROGRESSIVE DAMAGE SIMULATION [C] . Dongming Zhu, Noel N. Nemeth Conference on Advanced Ceramic Matrix Composites: Science and Technology of Materials, Design, Applications, Performance and Integration . 2018

机译：环境屏障涂层骨折，疲劳和高温通量环境破坏机制和随机逐步损伤模拟
5. Progressive damage and failure of thermal barrier coatings. [D] . Chen, Xiaoqun. 2001

机译：隔热涂层的逐步损坏和故障。
6. Tunable properties of (HoxY1-x)2SiO5 as damage self-monitoring environmental/thermal barrier coating candidates [O] . Zhilin Tian, Liya Zheng, Wanpeng Hu, -1

机译：（HoxY1-x）2SiO5的可调谐特性可作为损坏自我监测的环境/隔热涂层候选
7. Specific Failures of Superalloys with Thermal Barrier Coatings Subjected to Thermo-mechanical Fatigue Loadings with a Thermal Gradient in a Simulated Combustion Environment [O] . M. Okazaki, S. Yamagishi, M. Sakaguchi, 2012

机译：高温合金具有热障涂层的高温合金故障，在模拟燃烧环境中具有热梯度的热机械疲劳载荷
8. Environmental Barrier Coating Fracture, Fatigue and High-Heat-Flux Durability Modeling and Stochastic Progressive Damage Simulation. [R] . Zhu, D., Nemeth, N. N. 2017

机译：环境屏障涂层断裂，疲劳和高热通量耐久性建模和随机渐进损伤模拟。

ENVIRONMENTAL BARRIER COATING FRACTURE, FATIGUE AND HIGH-HEAT-FLUX ENVIRONMENT FAILURE MECHANISMS AND STOCHASTIC PROGRESSIVE DAMAGE SIMULATION

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