Damage identification in a lightly reinforced concrete beam based on changes in the power spectral density

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Title:	Damage identification in a lightly reinforced concrete beam based on changes in the power spectral density
Authors:	Kumar, R.P. Oshima, T. Mikami, S. Miyamori, Y. Yamazaki, T.
Keywords:	Power spectral density Piezoelectric actuator Health monitoring Damage indicator
Issue Date:	2012
Publisher:	Structure and Infrastructure Engineering Maintenance, Management, Life-Cycle Design and Performance
Citation:	10.1080/15732471003730674
Abstract:	This paper deals with the detection of damage in a lightly reinforced concrete beam using dynamic measurements. An algorithm based on changes in the power spectral density (PSD) is presented. The algorithm is used to detect damage, predict the location and assess the extent of damage in the reinforced concrete beam. The method is based on the measured data on the beam after introducing some damage at salient locations. A tuneable piezoelectric actuator was used to produce additional peaks in the dynamic response of the system in the frequency domain. These additional peaks were adjusted over the frequency band by tuning the actuator. It was noticed from the results, that the PSD method detected the damage, determine the location and could monitor the increase in damage in the beam
Description:	NITW
URI:	http://localhost:8080/xmlui/handle/123456789/2681
Appears in Collections:	Civil Engineering

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