Across historical centres in Europe, stone masonry buildings form building aggregates that developed as the layout of the city or village was densified. In these aggregates, adjacent buildings can share structural walls with an older and a newer unit connected either by interlocking stones or by a layer of mortar. Observations after for example the recent Central Italy earthquakes showed that joints between the buildings were often the first elements to be damaged, leading to a complex interaction between the units. The analysis of such building aggregates is difficult due to the lack of guidelines, as the advances were impeded by the scarce experimental data. Therefore, the objective of the project AIMS (Seismic Testing of Adjacent Interacting Masonry Structures), included in the H2020 project SERA, was to provide such data by testing an aggregate of two double-leaf stone masonry buildings under two horizontal components of dynamic excitation. The test units were constructed at half-s...cale, with a two-storey building and a one-storey building. The buildings shared one common wall, while only a layer of mortar connected the façade walls. The floors were at different heights and had different beam orientations. Prior to the test, a blind prediction competition was organized with twelve participants from academia and industry that were provided with all the geometrical and material data, construction details, and the seismic input. The participants were asked to report results in terms of damage mechanisms, recorded displacements and base shear values. Results of the shake-table campaign are reported, together with a comparison with the blind predictions. Large scatter in terms of reported predictions highlights the impact of modelling uncertainties and the need for further tests.
Keywords:
Historical centres / Stone masonry / Masonry aggregates / Shake table test / Blind prediction
Source:
3rd European Conference on Earthquake Engineering & Seismology, 2022
TY - CONF
AU - Tomić, Igor
AU - Penna, Andrea
AU - DeJong, Matthew
AU - Butenweg, Christoph
AU - Correia, Antonio
AU - Candeias, Paulo Xavier
AU - Senaldi, Ilaria
AU - Guerrini, Gabriele
AU - Malomo, Daniele
AU - Wilding, Bastian
AU - Pettinga, Didier
AU - Spanenburg, Mark
AU - Parisse, Francesco
AU - Marques, Rui
AU - Cattari, Serena
AU - Lourenco, Paulo
AU - Galvez, Francisco
AU - Dizhur, Dmytro
AU - Ingham, Jason
AU - Ramaglia, Giancarlo
AU - Lignola, Gian Piero
AU - Prota, Andrea
AU - AlShawa, Omar
AU - Liberatore, Domenico
AU - Sorrentino, Luigi
AU - Gagliardo, Raffaele
AU - Godio, Michele
AU - Portioli, Francesco
AU - Landolfo, Raffaele
AU - Solarino, Fabio
AU - Bianchini, Nicoletta
AU - Ciocci, Maria Pia
AU - Romanazzi, Antonio
AU - Asikoglu, Abide
AU - D'Anna, Jennifer
AU - Ramirez, Rafael
AU - Romis, Federico
AU - Marinković, Marko
AU - Đorđević, Filip
AU - Beyer, Katrin
PY - 2022
UR - https://grafar.grf.bg.ac.rs/handle/123456789/2876
AB - Across historical centres in Europe, stone masonry buildings form building aggregates that developed as the layout of the city or village was densified. In these aggregates, adjacent buildings can share structural walls with an older and a newer unit connected either by interlocking stones or by a layer of mortar. Observations after for example the recent Central Italy earthquakes showed that joints between the buildings were often the first elements to be damaged, leading to a complex interaction between the units. The analysis of such building aggregates is difficult due to the lack of guidelines, as the advances were impeded by the scarce experimental data. Therefore, the objective of the project AIMS (Seismic Testing of Adjacent Interacting Masonry Structures), included in the H2020 project SERA, was to provide such data by testing an aggregate of two double-leaf stone masonry buildings under two horizontal components of dynamic excitation. The test units were constructed at half-scale, with a two-storey building and a one-storey building. The buildings shared one common wall, while only a layer of mortar connected the façade walls. The floors were at different heights and had different beam orientations. Prior to the test, a blind prediction competition was organized with twelve participants from academia and industry that were provided with all the geometrical and material data, construction details, and the seismic input. The participants were asked to report results in terms of damage mechanisms, recorded displacements and base shear values. Results of the shake-table campaign are reported, together with a comparison with the blind predictions. Large scatter in terms of reported predictions highlights the impact of modelling uncertainties and the need for further tests.
C3 - 3rd European Conference on Earthquake Engineering & Seismology
T1 - Seismic testing of adjacent interacting masonry structures – shake table test and blind prediction competition
UR - https://hdl.handle.net/21.15107/rcub_grafar_2876
ER -
@conference{
author = "Tomić, Igor and Penna, Andrea and DeJong, Matthew and Butenweg, Christoph and Correia, Antonio and Candeias, Paulo Xavier and Senaldi, Ilaria and Guerrini, Gabriele and Malomo, Daniele and Wilding, Bastian and Pettinga, Didier and Spanenburg, Mark and Parisse, Francesco and Marques, Rui and Cattari, Serena and Lourenco, Paulo and Galvez, Francisco and Dizhur, Dmytro and Ingham, Jason and Ramaglia, Giancarlo and Lignola, Gian Piero and Prota, Andrea and AlShawa, Omar and Liberatore, Domenico and Sorrentino, Luigi and Gagliardo, Raffaele and Godio, Michele and Portioli, Francesco and Landolfo, Raffaele and Solarino, Fabio and Bianchini, Nicoletta and Ciocci, Maria Pia and Romanazzi, Antonio and Asikoglu, Abide and D'Anna, Jennifer and Ramirez, Rafael and Romis, Federico and Marinković, Marko and Đorđević, Filip and Beyer, Katrin",
year = "2022",
abstract = "Across historical centres in Europe, stone masonry buildings form building aggregates that developed as the layout of the city or village was densified. In these aggregates, adjacent buildings can share structural walls with an older and a newer unit connected either by interlocking stones or by a layer of mortar. Observations after for example the recent Central Italy earthquakes showed that joints between the buildings were often the first elements to be damaged, leading to a complex interaction between the units. The analysis of such building aggregates is difficult due to the lack of guidelines, as the advances were impeded by the scarce experimental data. Therefore, the objective of the project AIMS (Seismic Testing of Adjacent Interacting Masonry Structures), included in the H2020 project SERA, was to provide such data by testing an aggregate of two double-leaf stone masonry buildings under two horizontal components of dynamic excitation. The test units were constructed at half-scale, with a two-storey building and a one-storey building. The buildings shared one common wall, while only a layer of mortar connected the façade walls. The floors were at different heights and had different beam orientations. Prior to the test, a blind prediction competition was organized with twelve participants from academia and industry that were provided with all the geometrical and material data, construction details, and the seismic input. The participants were asked to report results in terms of damage mechanisms, recorded displacements and base shear values. Results of the shake-table campaign are reported, together with a comparison with the blind predictions. Large scatter in terms of reported predictions highlights the impact of modelling uncertainties and the need for further tests.",
journal = "3rd European Conference on Earthquake Engineering & Seismology",
title = "Seismic testing of adjacent interacting masonry structures – shake table test and blind prediction competition",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2876"
}
Tomić, I., Penna, A., DeJong, M., Butenweg, C., Correia, A., Candeias, P. X., Senaldi, I., Guerrini, G., Malomo, D., Wilding, B., Pettinga, D., Spanenburg, M., Parisse, F., Marques, R., Cattari, S., Lourenco, P., Galvez, F., Dizhur, D., Ingham, J., Ramaglia, G., Lignola, G. P., Prota, A., AlShawa, O., Liberatore, D., Sorrentino, L., Gagliardo, R., Godio, M., Portioli, F., Landolfo, R., Solarino, F., Bianchini, N., Ciocci, M. P., Romanazzi, A., Asikoglu, A., D'Anna, J., Ramirez, R., Romis, F., Marinković, M., Đorđević, F.,& Beyer, K.. (2022). Seismic testing of adjacent interacting masonry structures – shake table test and blind prediction competition. in 3rd European Conference on Earthquake Engineering & Seismology.
https://hdl.handle.net/21.15107/rcub_grafar_2876
Tomić I, Penna A, DeJong M, Butenweg C, Correia A, Candeias PX, Senaldi I, Guerrini G, Malomo D, Wilding B, Pettinga D, Spanenburg M, Parisse F, Marques R, Cattari S, Lourenco P, Galvez F, Dizhur D, Ingham J, Ramaglia G, Lignola GP, Prota A, AlShawa O, Liberatore D, Sorrentino L, Gagliardo R, Godio M, Portioli F, Landolfo R, Solarino F, Bianchini N, Ciocci MP, Romanazzi A, Asikoglu A, D'Anna J, Ramirez R, Romis F, Marinković M, Đorđević F, Beyer K. Seismic testing of adjacent interacting masonry structures – shake table test and blind prediction competition. in 3rd European Conference on Earthquake Engineering & Seismology. 2022;.
https://hdl.handle.net/21.15107/rcub_grafar_2876 .
