Fatigue analyses of buildings with viscoelastic dampers: Fid-Bau Portal

Fatigue analyses of buildings with viscoelastic dampers

Palmeri, Alessandro / Ricciardelli, Francesco

Viscoelastic damping devices are effective in mitigating the buffeting response of medium- to high-rise buildings. Their use has the effect of limiting displacements and accelerations, as well as of reducing number and amplitude of fatigue cycles. The structural behaviour, however, is somehow modified, and a standard Kelvin-Voigt model proves to be inaccurate in predicting the dynamic response. For an accurate analysis, in fact, a model able to account for the viscoelastic memory is needed. In this paper, the problem of estimating the fatigue life of structural components of tall buildings provided with viscoelastic dampers is dealt with. A dynamic model of the building in the modal space is established, able to account for the viscoelastic memory, as opposed to the classical modal strain energy method. A cycle counting procedure is then summarised, based on the separation of the dynamic response of the building into a quasi-static and a resonant part. The fatigue life is then evaluated using the well-known Palmgren-Miner rule. An application to a 15-storey building is included, aimed at quantifying the inaccuracies arising when the memory effect is neglected.