Damage detection using finite element and laser operational deflection shapes

Damage detection can increase safety, extend serviceability, reduce maintenance costs, and define reduced operating limits for structures. Vibration-based methods are a new approach for damage detection and are more globally sensitive to damage than localized methods such as ultrasonic and eddy curr...

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Veröffentlicht in:	Finite elements in analysis and design 2002, Vol.38 (3), p.193-226
Hauptverfasser:	Waldron, K., Ghoshal, A., Schulz, M.J., Sundaresan, M.J., Ferguson, F., Pai, P.F., Chung, J.H.
Format:	Artikel
Sprache:	eng
Schlagworte:	Computational techniques Damage detection Exact sciences and technology Finite element Finite-element and galerkin methods Fundamental areas of phenomenology (including applications) Laser Mathematical methods in physics Measurement and testing methods Measurement methods and techniques in continuum mechanics of solids Mode shapes Operational deflection shapes Physics Smart structures Solid mechanics Structural and continuum mechanics Vibrometry
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container_title	Finite elements in analysis and design
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creator	Waldron, K. Ghoshal, A. Schulz, M.J. Sundaresan, M.J. Ferguson, F. Pai, P.F. Chung, J.H.
description	Damage detection can increase safety, extend serviceability, reduce maintenance costs, and define reduced operating limits for structures. Vibration-based methods are a new approach for damage detection and are more globally sensitive to damage than localized methods such as ultrasonic and eddy current methods. The interpretation of vibration responses to identify damage is dependent on the numbers and types of sensors and actuators used. One technique that is promising is the use of operational deflection shapes (ODS) for structural damage detection. The ODS are the actual vibration displacement or velocity patterns of a structure that is vibrating in the steady-state condition due to a specific structural loading. In this paper, the ODS are represented as summations of scaled mode shapes and it is demonstrated through finite-element simulations how the vibration excitation parameters can be chosen to aid in identifying structural damages. Generation of experimental ODS is performed using a scanning laser Doppler vibrometer and piezoceramic actuators, and examples of damage detection on a beam are presented.
doi_str_mv	10.1016/S0168-874X(01)00061-0
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subjects	Computational techniques Damage detection Exact sciences and technology Finite element Finite-element and galerkin methods Fundamental areas of phenomenology (including applications) Laser Mathematical methods in physics Measurement and testing methods Measurement methods and techniques in continuum mechanics of solids Mode shapes Operational deflection shapes Physics Smart structures Solid mechanics Structural and continuum mechanics Vibrometry
title	Damage detection using finite element and laser operational deflection shapes
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