Preliminary nonlinear analysis of a scaled masonry building under shaking test for the blind prediction of the SERA AIMS project

Ramaglia, Giancarlo; Lignola, Gian Piero; Prota, Andrea

doi:10.1007/s10518-023-01639-5

Cited by 4 publications

(1 citation statement)

References 46 publications

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“…-The threshold at which evident damage is expected; -Identify the areas where the damage is concentrated; -Identify the type of damage. Such simplified model has been successfully used before for similar problems of masonry structures and components modeling [12][13][14][15][16][17][18]. The masonry structure has been modelled by means of non-linear shell elements in SAP2000 (developed by "Computers and Structures").…”

Section: Structural Analysismentioning

confidence: 99%

Simplified Evaluation for the Sera-Ta Blind Prediction: Seismic Behavior of Masonry Cross Vaults

Ramaglia,

Lignola,

Prota

2023

Proceedings of the 8th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (COM

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Experimental tests performed on prototypes provide important information to improve the knowledge under dynamic actions. Masonry vaults play a much relevant role in the seismic response of heritage masonry buildings and their behavior is very hard to predict due to the strong variability and heterogeneity of the physical and mechanical and input parameters. Since it is not possible to perform initial blind calibrations, the development of simplified models able to capture the main aspects is certainly a useful tool to plan experimental tests. In this specific case, the development of a model able to provide the following outputs has been the main goal: the threshold at which evident damage is expected; identify the areas where the damage is concentrated; identify the type of damage. The masonry cross vault has been modelled by means of non-linear shell elements both for unreinforced and strengthened configuration. Managing simple models allowed also performing some consecutive time histories including the effects of previous signals, as tested prototype was subjected to replicas. The results obtained by the FE model have been compared with the experimental results. The simplified approach discussed in this paper represents a useful support tool to design dynamic tests on full-scale or scaled masonry structures.

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Section: Structural Analysismentioning

confidence: 99%

Simplified Evaluation for the Sera-Ta Blind Prediction: Seismic Behavior of Masonry Cross Vaults

Ramaglia,

Lignola,

Prota

2023

Proceedings of the 8th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (COM

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Foreword to the special issue “Adjacent Interacting Masonry Structures”

Beyer,

Butenweg,

Penna

et al. 2024

Bull Earthquake Eng

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This special issue focuses on the seismic performance of adjacent interacting masonry structures, particularly in historical European city centers. The AIMS project provided unique data on interacting masonry structures through large-scale shake table tests on two adjacent half-scale stone masonry buildings. The experimental campaign was accomapgnied by a blind prediction study where participants modeled the aggregate’s seismic response. Findings highlight challenges in accurately predicting displacement demands and failure modes, providing critical insights for improving future modeling techniques for masonry buildings.

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Seismic vulnerability prediction of masonry aggregates: Iterative Finite element Upper Bound limit analysis approximating no tensile resistance

Wang

2023

Engineering Structures

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Preliminary nonlinear analysis of a scaled masonry building under shaking test for the blind prediction of the SERA AIMS project

Cited by 4 publications

References 46 publications

Simplified Evaluation for the Sera-Ta Blind Prediction: Seismic Behavior of Masonry Cross Vaults

Simplified Evaluation for the Sera-Ta Blind Prediction: Seismic Behavior of Masonry Cross Vaults

Foreword to the special issue “Adjacent Interacting Masonry Structures”

Seismic vulnerability prediction of masonry aggregates: Iterative Finite element Upper Bound limit analysis approximating no tensile resistance

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