Modeling and Identification Method of Bolt Loosening of Joint Surface under Axial Tension of Multistage Disk-Drum Rotor

Eksploatacja i Niezawodność – Maintenance and Reliability Pub Date : 2023-05-05 DOI:10.17531/ein/165779

C. Yue, X. Zheng, Chaoge Wang, Hao Liu, Hu Chen

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Abstract

Individual bolt at key connection positions is prone to loose when the engine is cycle-operating under complex loads. A joint surface equivalent stiffness model is derived and developed based on the connection characteristics of bolt screwing in the multi-exciting environment of the high pressure rotor. The model is used to analyze the effect of bolt missing at circumferential positions with the equivalent stiffness loss. Vibration experiments under both axial force and lateral impact were carried out to obtain the dynamic response feature of the multistage disk-drum simulated rotor with missing one bolt at different positions. The Spearman correlation coefficient was applied to evaluate the identification effect of different measuring points on the bolt loosening position. The study shows that the eigenfrequencies of experimental results have a consistent trend with the equivalent stiffness variation caused by single bolt missing model. This method also provides a theoretical basis for the detection of bolt deviation position with multi-exciting vibration detection.

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多级盘鼓转子轴向拉力作用下结合面螺栓松动建模及识别方法

发动机在复杂载荷下循环工作时，关键连接位置的单个螺栓容易松动。针对高压转子多激励环境下螺栓旋紧连接特性，推导并建立了连接面等效刚度模型。采用等效刚度损失模型分析了锚杆周向缺失的影响。为获得多级盘鼓模拟转子在不同位置缺一螺栓的动态响应特性，进行了轴向力和侧向冲击下的振动实验。采用Spearman相关系数评价不同测点对螺栓松动位置的识别效果。研究表明，试验结果的特征频率与单螺栓缺失模型引起的等效刚度变化趋势一致。该方法也为采用多激励振动检测方法检测锚杆偏离位置提供了理论依据。

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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Eksploatacja i Niezawodność – Maintenance and Reliability

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