Experimental investigation of air bearings dynamic coefficients

Mecanique & Industries Pub Date : 2010-11-01 DOI:10.1051/MECA/2010043

P. Matta, L. Rudloff, M. Arghir

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引用次数: 3

Abstract

The paper presents the experimental work developed by the authors for the identification of rotordynamic coefficients of air bearings. Air bearings work at very high rotation speeds and are known to have nonlinear dynamic characteristics depending at least on the excitation frequency. The paper presents two very similar test rigs, the testing procedure and the algorithm for identifying the rotordynamic coefficients. The test rigs consist of a rigid rotor guided by fixed bearings and driven by a spindle. The dynamic loads are applied by two orthogonally mounted shakers applying two linear independent excitations. Two air bearings are analysed in the present paper. The test procedure is first developed for a simple circular bearing with easily predictable dynamic characteristics. Its rotordynamic coefficients are identified by using a least square procedure based on rational functions. The coefficients are compared to theoretical results in order to underline the limits of the identification algorithm. The procedure is next applied to a first generation foil bearing. Rotordynamic coefficients are presented for different working conditions (static loads and rotation speeds) and are discussed comparing them to circular air bearings.

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空气轴承动力系数的实验研究

本文介绍了作者为识别空气轴承转子动力系数而进行的实验工作。空气轴承在非常高的转速下工作，并且已知至少取决于激励频率的非线性动态特性。本文介绍了两种非常相似的试验台、试验程序和转子动力系数辨识算法。试验台由一个由固定轴承引导并由主轴驱动的刚性转子组成。动态载荷由两个正交安装的激振器施加，激振器施加两个线性独立的激励。本文对两种空气轴承进行了分析。该测试程序首先是针对一个简单的圆形轴承开发的，它具有易于预测的动态特性。采用基于有理函数的最小二乘法辨识转子动力系数。将系数与理论结果进行比较，以强调识别算法的局限性。该程序接下来应用于第一代箔轴承。给出了不同工况(静载荷和转速)下的转子动力系数，并与圆形空气轴承进行了比较。

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

Mecanique & Industries 工程技术-工程：机械

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