论文信息 - SEISMIC BEHAVIOR OF STEEL STRUCTURES EQUIPPED WITH CYLINDRICAL FRICTIONAL DAMPERS

SEISMIC BEHAVIOR OF STEEL STRUCTURES EQUIPPED WITH CYLINDRICAL FRICTIONAL DAMPERS

During severe seismic excitations, a large amount of kinetic energy is fed into a structure .In this investigation, seismic response of steel structures utilizing Cylindrical Frictional Dampers (CFD) is studied. CFD is an innovative frictional damper which comprises two principal elements, the shaft and the hollow cylinder. These two elements are assembled such that one is shrink-fitted inside the other. If the damper’s axial force overcomes the static friction load, the shaft inside the cylinder will move and results in considerable mechanical energy absorption. To assess the efficacy of CFD, various steel frames are constructed and analyzed using OpenSees software. Nonlinear time history analyses and Incremental Dynamic Analysis (IDA) are applied to the frames and clear distinction has been drawn between the frames comprising CFD and the counterparts without CFD to emphasize the effectiveness of CFD in altering seismic responses. The results show that CFD extremely improves the seismic response of the structure

Masoud Mirtaheri | H Mirzaeefard

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