实验振动模态数据不确定性的谱表示

Q2 Physics and Astronomy
Kheirollah Sepahvand, C. Geweth, Ferina Saati, Matthias Klaerner, L. Kroll, Steffen Marburg
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引用次数: 0

摘要

众所周知,结构由于各种来源而表现出不确定性,例如制造公差和单个部件物理特性的变化。在许多实际应用中,对这些不确定性进行建模和精确表示是可取的。本文采用基于谱的方法来表示纤维增强复合材料板固有频率的不确定性。为此,使用激光振动计的非接触方法对100个具有相同标称拓扑的板样品进行了实验模态分析。然后使用具有未知确定性系数的广义多项式混沌(gPC)展开来表示随机频率。这为我们使用结合确定性系数和随机正交基的闭合形式函数来近似随机实验数据提供了主要优势。在已知正交基的情况下,使用数据的统计矩来估计未知系数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spectral Representation of Uncertainty in Experimental Vibration Modal Data
It is well known that structures exhibit uncertainty due to various sources, such as manufacturing tolerances and variations in physical properties of individual components. Modeling and accurate representation of these uncertainties are desirable in many practical applications. In this paper, spectral-based method is employed to represent uncertainty in the natural frequencies of fiber-reinforced composite plates. For that, experimental modal analysis using noncontact method employing Laser-Vibrometer is conducted on 100 samples of plates having identical nominal topology. The random frequencies then are represented employing generalized Polynomial Chaos (gPC) expansions having unknown deterministic coefficients. This provides us with major advantage to approximate the random experimental data using closed form functions combining deterministic coefficients and random orthogonal basis. Knowing the orthogonal basis, the statistical moments of the data are used to estimate the unknown coefficients.
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期刊介绍: The aim of Advances in Acoustics and Vibration is to act as a platform for dissemination of innovative and original research and development work in the area of acoustics and vibration. The target audience of the journal comprises both researchers and practitioners. Articles with innovative works of theoretical and/or experimental nature with research and/or application focus can be considered for publication in the journal. Articles submitted for publication in Advances in Acoustics and Vibration must neither have been published previously nor be under consideration elsewhere. Subject areas include (but are not limited to): Active, semi-active, passive and combined active-passive noise and vibration control Acoustic signal processing Aero-acoustics and aviation noise Architectural acoustics Audio acoustics, mechanisms of human hearing, musical acoustics Community and environmental acoustics and vibration Computational acoustics, numerical techniques Condition monitoring, health diagnostics, vibration testing, non-destructive testing Human response to sound and vibration, Occupational noise exposure and control Industrial, machinery, transportation noise and vibration Low, mid, and high frequency noise and vibration Materials for noise and vibration control Measurement and actuation techniques, sensors, actuators Modal analysis, statistical energy analysis, wavelet analysis, inverse methods Non-linear acoustics and vibration Sound and vibration sources, source localisation, sound propagation Underwater and ship acoustics Vibro-acoustics and shock.
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