Effects of geometric nonlinearities on the vibration reduction performance of tuned mass dampers on top of flexible structures

Abstract: A tuned mass damper (TMD) on top flexible structures may sustain considerable rotation because of the significant flexural deformation of the supporting structure. The effects of such rotation on the vibration reduction performance are generally neglected in the analysis and design of TMD-controlled systems, by assuming that the mass moves only laterally in a fixed global coordinate. This technical note critically reviews this assumption by comparing the dynamic responses of a lumped-mass Euler beam with a TMD… Show more

“…Terefore, the top-foor slab of the building will exhibit some rotational behavior due to fexural deformations. However, according to the study of Liu et al [48], this rotational behavior can be neglected if the structure is within the elastic range, i.e., if the drift ratio of the building is less than 1/200. Moreover, this TMD system is mainly efective in reducing structural vibration for the frst mode due to the location, such as the top of the building.…”

Design of Optimal Passive Tuned Mass Damper with Static Output Feedback and Updating Iterative Procedure

“…Terefore, the top-foor slab of the building will exhibit some rotational behavior due to fexural deformations. However, according to the study of Liu et al [48], this rotational behavior can be neglected if the structure is within the elastic range, i.e., if the drift ratio of the building is less than 1/200. Moreover, this TMD system is mainly efective in reducing structural vibration for the frst mode due to the location, such as the top of the building.…”

Design of Optimal Passive Tuned Mass Damper with Static Output Feedback and Updating Iterative Procedure