A Method to Determine the Circumferential Sliding of the Intershaft Gas Film Seal Considering Centrifugal and Thermal Expansion Effects

Q3 Engineering

International Journal of Fluid Machinery and Systems Pub Date : 2023-09-30 DOI:10.5293/ijfms.2023.16.3.282

Guoqiang Hou, Hua Su, Shuaike Zhao, Ke Li

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引用次数: 0

Abstract

The paper presents a method for predicting the circumferential relative sliding between the seal ring and the outer rotor in the dual rotor aero engine intershaft seal under high temperature and high speed conditions A criterion is proposed for determining the circumferential sliding of the intershaft end face gas film seal taking into account the effects of centrifugal expansion and thermal expansion. The mechanical mechanism of the circumferential sliding between the seal ring and the outer rotor is investigated. The expansion of the seal ring and the outer rotor is simplified to a plane thermoelastic mechanical problem, and the expansion and deformation of the two parts are calculated. The influence of material characteristics, temperature difference, and initial interference on the expansion deformation and connection relationship of the seal ring and outer rotor is analyzed Moreover, the critical sliding speed region between the seal ring and the outer rotor is determined. The analysis method provides theoretical guidance for predicting the circumferential sliding of the seal ring in practical engineering applications.

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考虑离心和热膨胀效应的轴间气膜密封周向滑动的确定方法

提出了高温高速条件下双转子航空发动机轴间密封环与外转子周向相对滑动量的预测方法，并提出了考虑离心膨胀和热膨胀影响的轴间端面气膜密封周向滑动量的确定准则。研究了密封圈与外转子之间周向滑动的力学机理。将密封圈和外转子的膨胀简化为平面热弹性力学问题，计算了两部分的膨胀和变形。分析了材料特性、温差、初始干扰对密封圈与外转子膨胀变形及连接关系的影响，确定了密封圈与外转子之间的临界滑动速度区域。该分析方法为实际工程应用中密封圈周向滑动的预测提供了理论指导。

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

International Journal of Fluid Machinery and Systems Engineering-Industrial and Manufacturing Engineering

CiteScore

1.80

自引率

0.00%

发文量