A comparative assessment of different frequency based damage detection in unidirectional composite plates using MFC sensors

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• 作者：Ricardo de Medeiros^a ; ^b ; ^c ; Murilo Sartorato^b ; Dirk Vandepitte^c ; Volnei Tita^b ; ^{voltita@sc.usp.br" class="auth_mail" title="E-mail the corresponding author}
• 关键词：Structural health monitoring ; Damage metrics ; Vibration analysis ; Piezoelectric sensor ; Finite element analysis
• 刊名：Journal of Sound and Vibration
• 出版年：2016
• 出版时间：24 November 2016
• 年：2016
• 卷：383
• 期：Complete
• 页码：171-190
• 全文大小：8769 K

文摘

The basic concept of the vibration based damage identification methods is that the dynamic behaviour of a structure can change if damage occurs. Damage in a structure can alter the structural integrity, and therefore, the physical properties like stiffness, mass and/or damping may change. The dynamic behaviour of a structure is a function of these physical properties and will, therefore, directly be affected by the damage. The dynamic behaviour can be described in terms of time, frequency and modal domain parameters. The changes in these parameters (or properties derived from these parameters) are used as indicators of damage. Hence, this work has two main objectives. The first one is to provide an overview of the structural vibration based damage identification methods. For this purpose, a fundamental description of the structural vibration based damage identification problem is given, followed by a short literature overview of the damage features, which are commonly addressed. The second objective is to create a damage identification method for detection of the damage in composite structures. To aid in this process, two basic principles are discussed, namely the effect of the potential damage case on the dynamic behaviour, and the consequences involved with the information reduction in the signal processing. Modal properties from the structural dynamic output response are obtained. In addition, experimental and computational results are presented for the application of modal analysis techniques applied to composite specimens with and without damage. The excitation of the structures is performed using an impact hammer and, for measuring the output data, accelerometers as well as piezoelectric sensors. Finite element models are developed by shell elements, and numerical results are compared to experimental data, showing good correlation for the response of the specimens in some specific frequency range. Finally, FRFs are analysed using suitable metrics, including a new one, which are compared in terms of their capability for damage identification. The experimental and numerical results show that the vibration-based damage methods combined to the metrics can be used in Structural Health Monitoring (SHM) systems to identify the damage in the structure.