首页> 外文会议>ASME turbo expo: turbine technical conference and exposition >ABRADABLE COATING REMOVAL IN TURBOMACHINES: A MACROSCOPIC APPROACH ACCOUNTING FOR SEVERAL WEAR MECHANISMS
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ABRADABLE COATING REMOVAL IN TURBOMACHINES: A MACROSCOPIC APPROACH ACCOUNTING FOR SEVERAL WEAR MECHANISMS

机译:涡轮机中可去除的涂层:几种磨损机理的宏观方法

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摘要

Abradable materials are widely used as a coating within compressor and turbine stages of modern aircraft engines in order to reduce operating blade-tip/casing clearances and thus maximize the engine energy efficiency. However, recent investigations revealed that the interaction between a blade and these materials may threaten blades structural integrity. Consequently, there is a need for a better understanding of the physical phenomena at play and for an accurate modelling of the interaction in order to predict hazardous events. The cornerstone of related numerical investigations lies in the modelling of the abradable coating removal due to the blade/abradable coating interaction and the associated contact forces along the contact interface. In this context, this article presents a macroscopic model for abradable coating removal accounting for key wear mechanisms including adhesive wear, abrasive wear, micro-rupture wear and machining wear. It is coupled with an in-house numerical strategy for the modelling of full 3D blade/abradable coating interactions within turbomachines and applied to an aircraft engine. Numerical results are compared with respect to existing models and available experimental data. The applicability of the proposed model for 3D interaction simulations is underlined as well as the consistency of the obtained results with experimental observations.
机译:可磨耗材料被广泛用作现代飞机发动机的压缩机级和涡轮级内的涂层,以减少工作的叶尖/机壳间隙,从而最大程度地提高发动机的能效。但是,最近的调查表明,叶片与这些材料之间的相互作用可能会威胁叶片的结构完整性。因此,需要更好地了解正在发生的物理现象,并需要对相互作用进行精确建模以预测危险事件。相关的数值研究的基础在于对由于刮刀/耐磨涂层的相互作用以及沿接触界面的相关接触力造成的耐磨涂层去除的建模。在这种情况下,本文提出了一种用于去除可磨耗涂层的宏观模型,其中考虑了主要的磨损机制,包括粘合剂磨损,磨料磨损,微破裂磨损和机加工磨损。它与内部数值策略相结合,用于对涡轮机内的完整3D叶片/可磨损涂层相互作用进行建模,并应用于飞机发动机。将数值结果与现有模型和可用的实验数据进行比较。强调了所提出的模型在3D交互模拟中的适用性,以及所获得的结果与实验观察结果的一致性。

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