1. An improved design method of a tuned mass damper for an in-service footbridge
- Author
-
Shi Weixing, Zheng Lu, and Liangkun Wang
- Subjects
Vibration ,Computer science ,business.industry ,Tuned mass damper ,Vibration control ,Range (statistics) ,Structural engineering ,Engineering design process ,business ,Finite element method ,Field (computer science) - Abstract
Tuned mass damper (TMD) has a wide range of applications in the vibration control of footbridges. However, the traditional engineering design method may lead to a mistuned TMD. In this paper, an improved TMD design method based on the model updating is proposed. Firstly, the original finite element model (FEM) is studied and the natural characteristics of the in-service or newly built footbridge is identified by field test, and then the original FEM is updated. TMD is designed according to the new updated FEM, and it is optimized according to the simulation on vibration control effects. Finally, the installation and field measurement of TMD are carried out. The improved design method can be applied to both in-service and newly built footbridges. This paper illustrates the improved design method with an engineering example. The frequency identification results of field test and original FEM show that there is a relatively large difference between them. The TMD designed according to the updated FEM has better vibration control effect than the TMD designed according to the original FEM. The site test results show that TMD has good effect on controlling human-induced vibrations.
- Published
- 2018