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Shake-table testing of a stone masonry building aggregate : overview of blind prediction study

Tomić, I. (författare)
École Polytechnique Fédérale de Lausanne, Switzerland
Penna, A. (författare)
University of Pavia, Italy
DeJong, M. (författare)
McGill University, Canada
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Butenweg, C. (författare)
RWTH Aachen University, Germany
Correia, A. A. (författare)
National Laboratory for Civil Engineering, Portugal
Candeias, P. X. (författare)
National Laboratory for Civil Engineering, Portugal
Senaldi, I. (författare)
EUCENTRE European Centre for Training and Research in Earthquake Engineering, Italy
Guerrini, G. (författare)
EUCENTRE European Centre for Training and Research in Earthquake Engineering, Italy; University of Pavia, Italy
Malomo, D. (författare)
McGill University, Canada
Wilding, B. (författare)
Basler & Hofmann AG, Switzerland
Pettinga, D. (författare)
Holmes Consulting LP, New Zealand
Spanenburg, M. (författare)
BAM Advies & Engineering, Netherlands
Galanakis, N. (författare)
BAM Advies & Engineering, Netherlands
Oliver, S. (författare)
Holmes Consulting LP, New Zealand
Parisse, F. (författare)
University of Minho, Portugal
Marques, R. (författare)
University of Minho, Portugal
Cattari, S. (författare)
University of Genoa, Italy
Lourenço, P. B. (författare)
University of Genoa, Italy
Galvez, F. (författare)
University of Auckland, New Zealand
Dizhur, D. (författare)
University of Auckland, New Zealand
Ingham, J. M. (författare)
University of Auckland, New Zealand
Ramaglia, G. (författare)
University of Naples “Federico II”, Italy
Lignola, G. P. (författare)
University of Naples “Federico II”, Italy
Prota, A. (författare)
University of Naples “Federico II”, Italy
AlShawa, O. (författare)
Sapienza University of Rome, Italy
Liberatore, D. (författare)
Sapienza University of Rome, Italy
Sorrentino, L. (författare)
Sapienza University of Rome, Italy
Gagliardo, R. (författare)
University of Naples “Federico II”, Italy
Godio, Michele (författare)
RISE,Kemi och Tillämpad mekanik
Portioli, F. (författare)
University of Naples “Federico II”, Italy
Landolfo, R. (författare)
University of Naples “Federico II”, Italy
Solarino, F. (författare)
University of Minho, Portugal
Bianchini, N. (författare)
University of Minho, Portugal
Ciocci, M. P. (författare)
University of Minho, Portugal
Romanazzi, A. (författare)
University of Minho, Portugal
Aşıkoğlu, A. (författare)
University of Minho, Portugal
D’Anna, J. (författare)
University of Minho, Portugal
Ramirez, R. (författare)
University of Minho, Portugal
Romis, F. (författare)
University of Minho, Portugal
Marinković, M. (författare)
University of Belgrade, Serbia
Đorđević, F. (författare)
University of Belgrade, Serbia
Beyer, K. (författare)
École Polytechnique Fédérale de Lausanne, Switzerland
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 (creator_code:org_t)
2023
2023
Engelska.
Ingår i: Bulletin of Earthquake Engineering. - : Springer Science and Business Media LLC. - 1570-761X .- 1573-1456.
Relaterad länk:
https://doi.org/10.1...
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https://urn.kb.se/re...
https://doi.org/10.1...
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  • Tidskriftsartikel (refereegranskat)
Abstract Ämnesord
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  • City centres of Europe are often composed of unreinforced masonry structural aggregates, whose seismic response is challenging to predict. To advance the state of the art on the seismic response of these aggregates, the Adjacent Interacting Masonry Structures (AIMS) subproject from Horizon 2020 project Seismology and Earthquake Engineering Research Infrastructure Alliance for Europe (SERA) provides shake-table test data of a two-unit, double-leaf stone masonry aggregate subjected to two horizontal components of dynamic excitation. A blind prediction was organized with participants from academia and industry to test modelling approaches and assumptions and to learn about the extent of uncertainty in modelling for such masonry aggregates. The participants were provided with the full set of material and geometrical data, construction details and original seismic input and asked to predict prior to the test the expected seismic response in terms of damage mechanisms, base-shear forces, and roof displacements. The modelling approaches used differ significantly in the level of detail and the modelling assumptions. This paper provides an overview of the adopted modelling approaches and their subsequent predictions. It further discusses the range of assumptions made when modelling masonry walls, floors and connections, and aims at discovering how the common solutions regarding modelling masonry in general, and masonry aggregates in particular, affect the results. The results are evaluated both in terms of damage mechanisms, base shear forces, displacements and interface openings in both directions, and then compared with the experimental results. The modelling approaches featuring Discrete Element Method (DEM) led to the best predictions in terms of displacements, while a submission using rigid block limit analysis led to the best prediction in terms of damage mechanisms. Large coefficients of variation of predicted displacements and general underestimation of displacements in comparison with experimental results, except for DEM models, highlight the need for further consensus building on suitable modelling assumptions for such masonry aggregates.

Ämnesord

NATURVETENSKAP  -- Geovetenskap och miljövetenskap -- Geofysik (hsv//swe)
NATURAL SCIENCES  -- Earth and Related Environmental Sciences -- Geophysics (hsv//eng)

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