Effect of the Bending Stiffness of Bolted Flange Joints on the Dynamics of Aero-Engine Rotors

Linbo Zhu, H. Pan, Yilong Yang, A. Bouzid, Jun Hong
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Abstract

Bolted flange joints are used to connect adjacent disks and drums in aero-engine rotors. The flange mating contact surfaces usually move relative to each other and deform when they are subjected to numerous combinations of loads during normal operation. Consequently, the local bending stiffness of the bolted flange joint is altered considerably affecting the overall rotor stiffness and therefore the rotor dynamics. This paper presents a study on the effect of the bending stiffness of bolted flange joints on the dynamic characteristics of an aero-engine rotor. A method to calculate the bending stiffness is proposed using an equivalent model based on an axial spring and bending beam stiffnesses. The relationship of the structure geometry, loading and assembly conditions of the bolted flange joints, and the bending stiffness loss are obtained. Furthermore, a dynamic model of an aero-engine high-pressure compressor rotor is developed using the transfer matrix method that incorporates the bending stiffness effect of the bolted flange joint. Based on this model, the influence of bending stiffness on the natural frequency and the steady-state response is discussed. The results show that the stiffness loss of bolted flange joint has a significant impact on the rotor dynamics. The structure geometry, loading, and assembly conditions can be used to control the dynamic response of aero-engine rotors.
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螺栓连接法兰的弯曲刚度对航空发动机转子动力学的影响
螺栓法兰连接用于连接航空发动机转子中相邻的盘和鼓。在正常工作过程中,当法兰配合接触面受到多种载荷组合作用时,通常会相互移动并发生变形。因此,螺栓法兰连接的局部弯曲刚度发生了很大的变化,影响了转子的整体刚度,从而影响了转子的动力学。本文研究了航空发动机螺栓连接法兰的弯曲刚度对转子动态特性的影响。提出了一种基于轴向弹簧和弯曲梁刚度的等效模型计算弯曲刚度的方法。得到了螺栓法兰连接的结构几何形状、载荷和装配条件与弯曲刚度损失的关系。在此基础上,利用传递矩阵法建立了考虑螺栓连接法兰弯曲刚度影响的航空发动机高压压气机转子动力学模型。在此基础上,讨论了弯曲刚度对固有频率和稳态响应的影响。结果表明,螺栓连接法兰的刚度损失对转子的动力学特性有显著影响。结构几何、载荷和装配条件可用于控制航空发动机转子的动态响应。
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