AN EXPERIMENTAL STUDY OF VARIABILITY IN DAMPING, FREQUENCY RESPONSE AND MODAL DATA

4th International Conference on Uncertainty Quantification in Computational Sciences and Engineering Pub Date : 1900-01-01 DOI:10.7712/120221.8039.18992

A. K. Panda, S. Modak

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Abstract

Accurate modelling of the damping in structures, along with the mass and stiffness properties, is important for an accurate prediction of the dynamic response. Also important is modeling of the variability in damping, along with the variability the mass and stiffness properties, from sample to sample if the variability of the dynamic response is to be accurately predicted. The present work is a part of the ongoing efforts in this direction. The objective of this paper is two-fold. The first is to study the variability of the damping factors of various modes of the test structure over its several samples. The second objective is to study the variability when the test structures are made up of different materials. An experimental study is conducted on beam samples of three different materials, Mild steel, Aluminum and Acrylic. Variability in frequency response functions (FRFs), modal data including variability of damping factors is quantified. The study offers some important insights into importance of modeling of damping uncertainty for making accurate structural dynamic predictions.

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阻尼、频率响应和模态数据变异性的实验研究

精确的结构阻尼建模，以及质量和刚度特性，对于准确预测动态响应是非常重要的。如果要准确预测动态响应的可变性，同样重要的是对阻尼可变性的建模，以及样品之间质量和刚度特性的可变性。目前的工作是这方面正在进行的努力的一部分。本文的目的是双重的。首先，研究了试验结构在不同模态下阻尼系数在多个试样上的变异性。第二个目标是研究当测试结构由不同材料组成时的变异性。对低碳钢、铝和亚克力三种不同材料的梁试件进行了试验研究。频率响应函数(FRFs)的可变性，模态数据包括阻尼因子的可变性被量化。该研究提供了一些重要的见解，即阻尼不确定性建模对于进行准确的结构动力预测的重要性。

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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4th International Conference on Uncertainty Quantification in Computational Sciences and Engineering

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