OPTIMIZING THERMAL BARRIER COATING DESIGN USING STRUCTURAL OPTIMIZATION METHODS

机译：利用结构优化方法优化热障涂层设计

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Thermal barrier coatings (TBCs) are used in gas turbines to reduce creep, thermo-mechanical fatigue, and oxidation, or to allow for reduced air cooling. TBCs may fail due to fatigue. Structural optimization methods were applied to optimize the TBC thickness in such a way as to increase the life of the TBC. The TBC thickness was varied for three cases: 1) minimizing TBC volume, 2) minimizing TBC maximum effective stress, and 3) minimizing compliance (minimizing the strain energy). The results from the optimization were used to estimate the relative change in TBC life via a strain energy based failure criterion and a Coffin-Manson-like expression. Minimization of volume had limited use due to limitations in the current implementation. Minimization of effective stress did not give any significant increase in life. The minimization of compliance increased the estimated TBC life at highly stressed regions.

机译：隔热涂层（TBC）用于燃气轮机，以减少蠕变，热机械疲劳和氧化，或减少空气冷却。 TBC可能会因疲劳而失效。应用结构优化方法来优化TBC厚度，以延长TBC的使用寿命。三种情况下的TBC厚度有所不同：1）最小化TBC体积，2）最小化TBC最大有效应力，以及3）最小化顺应性（最小化应变能）。优化的结果用于通过基于应变能的破坏准则和类似Coffin-Manson的表达式来估算TBC寿命的相对变化。由于当前实施中的限制，最小化体积使用受到限制。有效压力的最小化并没有使寿命显着增加。法规遵从性的最小化增加了高压力地区的估计TBC寿命。

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《ASME turbo expo: turbine technical conference and exposition》|2017年|V006T24A003.1-V006T24A003.10|共10页
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Robert Eriksson; Anders Klarbring; Bo Torstenfelt; Kjell Simonsson;
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OPTIMIZING THERMAL BARRIER COATING DESIGN USING STRUCTURAL OPTIMIZATION METHODS

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