Influence of clearance and structural coupling parameters on shimmy stability of landing gear

S. Ruan, M. Zhang, Y. Hong, H. Nie
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Abstract

There are many factors causing the shimmy of the aircraft landing gear and structural clearance of landing gear is a typical factor. Some aircraft in service or operation did not shimmy before, but suddenly appeared after a period of use. To solve the problem of clearance shimmy during the service of a certain aircraft, we established a dynamic model of rotating gear with clearance based on the flexible multi-body dynamics model of landing gear and L-N contact theory. We defined different types of clearance and established a mechanical model of aircraft pendulum vibration considering the clearance of landing gear structure for dynamic simulation, and studied the effects of different clearance types, clearance size of motion pair and different clearance positions on the stability of pendulum. The results show that the axial clearance has little effect on the shimmy performance of landing gear; the radial clearance has a certain effect on the shimmy performance of medium speed running, which slightly improves the shimmy damping required by medium speed running; the rotational clearance affects the shimmy performance of the nose landing gear by affecting the force transmission of structural components. The required shimmy damping coefficient increases at low speed and decreases at high speed. The main reason for the return clearance is that during the return, the shimmy damper does not work, which leads to the decrease of the shimmy damping performance and the increase of the required shimmy damping coefficient in the whole speed range. Meanwhile, the structural clearance will increase the shimmy frequency of the nose landing gear. By analysing the yaw angle of the nose landing gear and the time domain curve of the yaw angle of the yaw damper, we can determine which structure of the landing gear and which type of clearance is the cause of the yaw. Finally, the coupling effect caused by the main structural parameters of the landing gear in “gap shimmy” was analysed according to different mechanical stability distances and strut stiffness of the nose landing gear, providing reference for aircraft anti-shimmy design, nose landing gear fault diagnosis and nose landing gear maintenance support.
间隙和结构耦合参数对起落架摆振稳定性的影响
引起飞机起落架摆振的因素很多,起落架结构间隙是一个典型的因素。有些在服役或运行的飞机以前没有摆振,但在使用一段时间后突然出现。为解决某型飞机在服役过程中存在的间隙摆振问题,基于起落架柔性多体动力学模型和L-N接触理论,建立了带间隙的旋转齿轮动力学模型。定义不同间隙类型,建立考虑起落架结构间隙的飞机摆振动力学模型进行动力学仿真,研究不同间隙类型、运动副间隙大小和不同间隙位置对摆稳定性的影响。结果表明:轴向间隙对起落架摆振性能影响不大;径向间隙对中速运行的摆振性能有一定的影响,略微改善了中速运行所需的摆振阻尼;转动间隙通过影响结构部件的力传递来影响前起落架的摆振性能。所需的摆振阻尼系数在低速时增大,在高速时减小。返程间隙产生的主要原因是返程过程中,减摆器不工作,导致整个速度范围内减摆性能下降,所需减摆系数增大。同时,结构间隙增加了前起落架的摆振频率。通过分析前起落架的横摆角和横摆阻尼器的横摆角的时域曲线,可以确定引起横摆的是起落架的哪一种结构和哪一种间隙。最后,根据机头起落架不同的机械稳定距离和支柱刚度,分析了机头主要结构参数在“间隙摆振”中产生的耦合效应,为飞机防摆设计、机头起落架故障诊断和机头起落架维修保障提供参考。
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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