Archivio Istituzionale della RicercaIn the present work, the Cohesive/Overlapping Crack Model is extended to the study of masonry or plain concrete structures, which are subjected to off-center compression. Multi-cracking and multi-crushing damage phenomena are simulated by means of the Crack Length Control Scheme, in order to obtain a complete load history of the vaulted structure. This Nonlinear Fracture Mechanics model reveals a high capability in predicting the elastic-plastic-softening behaviour of arches and vaults as well as the local mechanical instabilities, such as snap-back and snap-through, occurring during the post-cracking regime. In the first part of this paper, the Cohesive/Overlapping Crack Model and a description of the adopted multi-crack numerical procedures is provided. In the second part, some parametric analyses on scale effects in masonry arches are reported together with the results obtained for a real case-study. Finally, some future developments and applications of the model are presented.
Snap-Back Analysis of Fracture Evolution in Multi-cracked Masonry Arches / Cafarelli, Renato; Accornero, Federico; Carpinteri, Alberto. - 437:(2024), pp. 80-87. (Intervento presentato al convegno 2nd Italian Workshop on Shell and Spatial Structures, IWSS 2023 tenutosi a Torino (Italy) nel 26th - 28th June 2023) [10.1007/978-3-031-44328-2_9].
Snap-Back Analysis of Fracture Evolution in Multi-cracked Masonry Arches
Cafarelli, Renato;Accornero, Federico;Carpinteri, Alberto
2024
Abstract
In the present work, the Cohesive/Overlapping Crack Model is extended to the study of masonry or plain concrete structures, which are subjected to off-center compression. Multi-cracking and multi-crushing damage phenomena are simulated by means of the Crack Length Control Scheme, in order to obtain a complete load history of the vaulted structure. This Nonlinear Fracture Mechanics model reveals a high capability in predicting the elastic-plastic-softening behaviour of arches and vaults as well as the local mechanical instabilities, such as snap-back and snap-through, occurring during the post-cracking regime. In the first part of this paper, the Cohesive/Overlapping Crack Model and a description of the adopted multi-crack numerical procedures is provided. In the second part, some parametric analyses on scale effects in masonry arches are reported together with the results obtained for a real case-study. Finally, some future developments and applications of the model are presented.
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https://hdl.handle.net/11583/2985429