Health monitoring of fluid dampers for vibration control of structures: experimental investigation

SUMMARYThis paper presents results from a comprehensive experimental program on medium‐size and large‐size fluid dampers in an effort to extract their force output during cyclic loading by simply measuring the strain on the damper housing and the end‐spacer of the damper. The paper first discusses the stress path within the damper and, subsequently via the use of linear elasticity, shows that the experimental data obtained with commercially available strain gauges yield a force output of the damper that is in good agreement with the readings from the load cell. This comparison is achieved via the use of a position and velocity transducer, which combines good accuracy together with robust performance in a marine environment. The paper then examines the performance of a portable data acquisition system that can be used to collect and transmit data from a damper installed on a bridge to a nearby location (order of a km) where data are collected via either a wired or a wireless Local Area Network (LAN). Alternatively, the data may be transmitted to any remote location via mobile telecommunication networks; however, this requires leased telephone lines. The data show that the proposed arrangement is promising for monitoring in situ the force output of fluid dampers and detecting possible loss of their energy dissipation capability. Copyright © 2012 John Wiley & Sons, Ltd.

Health monitoring of fluid dampers for vibration control of structures: experimental investigation Journal Articles