Litcius/Paper detail

Damage Detection of Tension Pendulums in Cable-Stayed Bridges Using Structural Frequency Variance

Guangming Wu, Ting‐Hua Yi, Dong‐Hui Yang, Hong‐Nan Li

2020Journal of Performance of Constructed Facilities25 citationsDOI

Abstract

Structural health monitoring represents an efficient way to diagnose the condition of cable-stayed bridges. Most studies assessing the condition of cable-stayed bridges and detecting damage to them have been developed to monitor the longitudinal performance of bridge bearings. However, few studies have aimed to detect the damage to tension pendulums, which are usually tie-down cables that resist girder uplift from auxiliary piers. This study aims to develop an effective method for detecting the damage of tension pendulums in cable-stayed bridges using structural modal frequencies. First, the sensitivity of the bridge frequency to tension pendulum damage is derived according to the Rayleigh method. Then, a finite-element simulation of a cable-stayed bridge is conducted to validate the rationality of the frequency index. Finally, a case study on tension pendulum damage is carried out for the cable-stayed Yonghe Bridge. The results indicate that the frequency change is far more sensitive to the damage of the tension pendulums than to the damage of the stay cables. The failure of tie-down cables will result in a substantial decrease in the bridge frequency, up to approximately 35% for the first vertical bending mode of the bridge. In practice, the damage of tension pendulums can be effectively detected by a sudden decrease in the measured frequency of cable-stayed bridges.

Topics & Concepts

Structural engineeringTension (geology)Structural health monitoringBridge (graph theory)PendulumGirderEngineeringFinite element methodBendingMaterials scienceMechanical engineeringCompression (physics)MedicineInternal medicineComposite materialStructural Health Monitoring TechniquesStructural Engineering and Vibration AnalysisConcrete Corrosion and Durability