John W. Ayres scite author profile

This paper presents a qualitative health monitoring technique to be used in real-time damage evaluation of civil infrastructures such as bridge joints. The basic principle of the technique is to monitor the structural mechanical impedance which will be changed by the presence of structural damage. The mechanical impedance variations are monitored by measuring the electrical impedance of a bonded piezoelectric actuator/sensor patch. This mechanical-electrical impedance relation is due to the electromechanical coupling property of piezoelectric materials. This health monitoring technique can be easily adapted to existing structures, since only a small PZT patch is needed, giving the structure the ability to constantly monitor its own structural integrity. This impedance-based method operates at high frequencies (above 50 kHz), which enables it to detect incipient-type damage and is not confused by normal operating conditions, vibrations, changes in the structure or changes in the host external body. This health monitoring technique has been applied successfully to a variety of light structures. However, the usefulness of the technique for massive structures needs to be verified experimentally. For this purpose, a 500 lb quarter-scale deck truss bridge joint was built and used in this experimental investigation. The localized sensing area is still observed, but the impedance variations due to incipient damage are slightly different. Nevertheless, by converting the impedance measurements into a scalar damage index, the real-time implementation of the impedance-based technique has been proven feasible.

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<title>Qualitative health monitoring of a steel bridge joint via piezoelectric actuator/sensor patches</title>

Ayres

Lalande

Rogers

et al. 1996

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This paper presents a qualitative health monitoring technique to be used in real-time damage evaluation of massive complex structures such as bridge joints. The basic principle of the technique is to monitor the structural mechanical impedance which will be changed with the presence of damage. The mechanical impedance variations are monitored by measuring the electrical impedance with a piezoelectric actuator/sensor. This mechanical-electrical impedance relation is due to the electromechanical coupling property of piezoelectric materials. This health monitoring technique can be easily adapted to existing structures, since only a small PZT patch is needed, giving the structure the ability to constantly monitor its own structural integrity. This impedance-based method operates at high frequencies (generally above 100kHz), which enables it to detect incipient type damage, and is not confused by normal operating conditions, vibrations, changes in the structure, or changes in the host external body. This health monitoring technique has only been applied successfully to a variety of light structures. However, the usefulness of the NDE technique for massive structures is uncertain and needs to be investigated. For this purpose, a 500-LB, '/4-scale Deck Truss bridge joint was built and used in this experimental investigation. The localized sensing area is still observed, but the impedance variations due to incipient damage are slightly different.Nevertheless, by converting the impedance measurements into a scalar damage metric, the real-time implementation of the impedance-based technique has been proven feasible.

show abstract

<title>Qualitative health monitoring of a steel bridge joint via piezoelectric actuator/sensor patches</title>

Ayres

Lalande

Rogers

et al. 1996

View full text Add to dashboard Cite

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John W. Ayres

Qualitative impedance-based health monitoring of civil infrastructures

<title>Qualitative health monitoring of a steel bridge joint via piezoelectric actuator/sensor patches</title>

<title>Qualitative health monitoring of a steel bridge joint via piezoelectric actuator/sensor patches</title>

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