• Title of article

    Collapse of the clock tower in Finale Emilia after the May 2012 Emilia Romagna earthquake sequence: Numerical insight

  • Author/Authors

    Acito، نويسنده , , Maurizio and Bocciarelli، نويسنده , , Massimiliano and Chesi، نويسنده , , Claudio and Milani، نويسنده , , Gabriele، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2014
  • Pages
    22
  • From page
    70
  • To page
    91
  • Abstract
    The paper presents the final results of a wide numerical campaign conducted by the authors at the Technical University of Milan in cooperation with the Italian Cultural and Architectural Heritage Ministry (MiBAC) on the clock tower in Finale Emilia (Italy), collapsed during the main shock of the devastating May 20–29, 2012 seismic sequence. The analyses are aimed at better understanding the causes at the base of the collapse of the tower. The two main seismic events, occurred on May 20 and 29, were characterized by the presence of low frequency ground motions, with relevant vertical components. Consequently, structures having natural periods greater than those typical of ordinary buildings – such as the one analyzed – have been severely damaged. the first tremor (on the 20th of May), the clock-tower was split in two, with one half collapsing into rubble and the other standing precariously. The subsequent strong aftershock caused the almost total failure of the structure. estigate the behavior of the tower under seismic loads, a number of numerical analyses are performed, including simplified static analyses according to Italian Guidelines on architectural heritage, spectral response, non-linear static (pushover and kinematic limit analysis) and full non-linear dynamic analyses. In all cases, a full 3D detailed FE model is adopted. When dealing with the FEM non-linear dynamic analysis, a smeared crack isotropic damage model already implemented in ABAQUS is adopted. he numerical results, both the role played by the actual geometry and the insufficient resistance of the constituent materials are envisaged, also in light of the actual failure mechanism. In all cases, the numerical analyses provide a valuable picture of all possible failure mechanisms, thus giving useful hints for the reconstruction of the tower.
  • Keywords
    May 2012 Emilia earthquake , Non-linear dynamic analysis , 3D finite elements , Masonry tower , Pushover
  • Journal title
    Engineering Structures
  • Serial Year
    2014
  • Journal title
    Engineering Structures
  • Record number

    1677595