Development of an Acoustic Excitation Test Bench to Support the Validation of Bladed Disks

Volume 8B: Structures and Dynamics — Probabilistic Methods; Rotordynamics; Structural Mechanics and Vibration Pub Date : 2022-06-13 DOI:10.1115/gt2022-81933

J. Ligot, S. Denis, Sébastien Hoffait, Jean de Cazenove, J. Golinval

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Abstract

This paper proposes a mixed hardware and software solution to impose different controlled dynamic load patterns to a bladed disk using non-intrusive acoustic excitation. The test bench is coupled to an autonomous measurement system consisting of an infrared Laser Doppler Vibrometer (LDV) placed on a robotic arm. The development of the test bench is described from the definition of the requirements up to the calibration of the different components (acoustic excitation devices, power amplifiers, LDV positioning, etc.). The relation between the supplied voltage and the resulting pressure acting on the blade is also assessed. The main application of the developed test bench consists in the imposition of Standing or Traveling Waves Excitation in order to appropriate a given nodal diameter content and experimentally study the response to typical excitation pattern encountered when integrated on motor. Another application consists in the experimental mistuning measurement through modal analysis and the use of the Inverse Component Mode Mistuning method.

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支持叶片式圆盘验证的声激励试验台的开发

本文提出了一种硬件和软件混合的解决方案，利用非侵入式声激励对叶片盘施加不同的受控动态载荷模式。该试验台与安装在机械臂上的红外激光多普勒测振仪(LDV)组成的自主测量系统相耦合。从要求的定义到不同部件(声激励装置、功率放大器、LDV定位等)的校准，描述了试验台的发展。所提供的电压和产生的作用在叶片上的压力之间的关系也被评估。所开发的试验台的主要应用是施加驻波或行波激励，以适应给定的节点直径含量，并实验研究在电机上集成时遇到的典型激励模式的响应。另一个应用是通过模态分析和使用逆分量模态失谐方法进行实验失谐测量。

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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Volume 8B: Structures and Dynamics — Probabilistic Methods; Rotordynamics; Structural Mechanics and Vibration

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