Reduction of Housner’s Coefficient of Restitution for Masonry Walls Under One-Sided Rocking

Abstract: The out-of-plane dynamics of masonry walls is strongly influenced by seismic input, mass, wall geometry and boundary conditions. Nevertheless, the parameter that mostly affects the dynamic response of a rocking wall is the coefficient of restitution, defined by Housner as ratio of angular velocity after and before an impact on the ground. Such a parameter defines the amount of energy dissipated over motion and is of paramount importance in assessing the seismic vulnerability of a rocking wall, due to the sensi… Show more

“…The definition of the simplified structural model and the choice of the most appropriate analysis technique are still critical steps in the evaluation procedure of existing masonry buildings [6,7]. As reported in the Italian guidelines for the assessment and reduction of seismic risk of cultural heritage [16], masonry buildings are characterized by considerable uncertainties about the mechanical properties of the materials used and the efficiency of the connections between structural elements, often associated with complex structural schemes [17][18][19]. For this reason, in structural codes, reference mechanical models are commonly provided and specialized methods for preventive risk assessment are suggested considering the most common structural types and configurations, including models for "Churches, places of worship and other structures with large spaces, without intermediate structural horizontal elements" and for "Palaces, villas and other structures with spine walls and intermediate structural horizontal elements" [16].…”

Parametric HBIM Procedure for the Structural Evaluation of Heritage Masonry Buildings

“…The definition of the simplified structural model and the choice of the most appropriate analysis technique are still critical steps in the evaluation procedure of existing masonry buildings [6,7]. As reported in the Italian guidelines for the assessment and reduction of seismic risk of cultural heritage [16], masonry buildings are characterized by considerable uncertainties about the mechanical properties of the materials used and the efficiency of the connections between structural elements, often associated with complex structural schemes [17][18][19]. For this reason, in structural codes, reference mechanical models are commonly provided and specialized methods for preventive risk assessment are suggested considering the most common structural types and configurations, including models for "Churches, places of worship and other structures with large spaces, without intermediate structural horizontal elements" and for "Palaces, villas and other structures with spine walls and intermediate structural horizontal elements" [16].…”

Parametric HBIM Procedure for the Structural Evaluation of Heritage Masonry Buildings