This article presents a damage detection method for prestressed reinforced concrete (PRC) ele- ments based on free vibration tests and nonlinear damp- ing identification. Integrated static and dynamic exper- iments were carried out on three precast PRC beam specimens. The static loading induced different levels of damage to the beams. At each damage level, impul- sive loading was applied to the beams and the free vi- bration response was measured. The dynamic response data were processed using different methods including the multi-input multi-output (MIMO) curve fitting and the Hilbert transform techniques. A strong correlation is observed between the level of concrete damage (cracks) and the amount of nonlinear energy dissipation that can be modeled by means of quadratic damping. The non- linear damping can be extracted from the free vibration response for each vibration mode. The proposed method is suited for quality control when manufacturing precast PRC members, and can be further extended for in situ detection of damage in concrete structures under ambi- ent vibration.

Nonlinear Damping Identification in Precast Prestressed Reinforced Concrete Beams

MODENA, CLAUDIO;
2009

Abstract

This article presents a damage detection method for prestressed reinforced concrete (PRC) ele- ments based on free vibration tests and nonlinear damp- ing identification. Integrated static and dynamic exper- iments were carried out on three precast PRC beam specimens. The static loading induced different levels of damage to the beams. At each damage level, impul- sive loading was applied to the beams and the free vi- bration response was measured. The dynamic response data were processed using different methods including the multi-input multi-output (MIMO) curve fitting and the Hilbert transform techniques. A strong correlation is observed between the level of concrete damage (cracks) and the amount of nonlinear energy dissipation that can be modeled by means of quadratic damping. The non- linear damping can be extracted from the free vibration response for each vibration mode. The proposed method is suited for quality control when manufacturing precast PRC members, and can be further extended for in situ detection of damage in concrete structures under ambi- ent vibration.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/2378698
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