A novel seismic-resistant reconstruction technique for fair-face rubblestone masonry

After destructive earthquakes reconstruction is sometimes preferable over repair. In historic centres, this requires a wise balance between safety and compatibility with urban context, where the preservation of the fair face of masonry façades is an invaluable architectural asset. This paper propose...

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Published inEngineering structures Vol. 334; p. 120210
Main Authors Sangirardi, Marialuigia, De Santis, Stefano, Roselli, Ivan, Liberatore, Domenico, de Felice, Gianmarco
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.07.2025
Subjects
Glass fibre reinforced polymer (GFRP)
Pull-out tests
Reinforced masonry
Rubblestone masonry
Seismic design
Shake table tests
Reinforced masonry
Glass fibre reinforced polymer (GFRP)
Rubblestone masonry
Pull-out tests
Seismic design
Shake table tests
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Abstract After destructive earthquakes reconstruction is sometimes preferable over repair. In historic centres, this requires a wise balance between safety and compatibility with urban context, where the preservation of the fair face of masonry façades is an invaluable architectural asset. This paper proposes an innovative technology for the reconstruction of fair-face rubblestone masonry, consisting in a two-leaf structure. The internal leaf is made of reinforced hollow-clay masonry, and provides seismic resistance. The external leaf is built in fair-face rubblestone masonry, consistently with the pre-existing façade, possibly using the stones recovered from debris, avoiding their disposal and the supply of new materials. A glass fibre reinforced polymer mesh is laid in the bed joints, connecting the two leaves and preventing the disintegration of rubble masonry. The technique was validated through shake table tests on a full-scale prototype subject to out-of-plane vertical bending under natural seismic inputs. The prototype withstood earthquake motions nearly three times as intense as those recorded during the destructive 2016–2017 Central Italy seismic sequence, the maximum base acceleration being 1.7 g. Apart from limited hairline cracks, no signs of rubblestone disintegration or leaf separation were detected, measured relative displacements were less than 1 mm, and no residual deformations were detected. Design criteria are provided to allow the implementation of the proposed technology in post-earthquake reconstruction. •A technology to reconstruct masonry buildings in earthquake prone areas is proposed.•Walls are made of two connected leaves of reinforced and rubblestone masonry.•A connecting glass fibre reinforced polymer mesh is placed in bed joints.•The seismic performance of the wall is tested on a shake table.•Design criteria accounting for seismic actions are proposed.
AbstractList After destructive earthquakes reconstruction is sometimes preferable over repair. In historic centres, this requires a wise balance between safety and compatibility with urban context, where the preservation of the fair face of masonry façades is an invaluable architectural asset. This paper proposes an innovative technology for the reconstruction of fair-face rubblestone masonry, consisting in a two-leaf structure. The internal leaf is made of reinforced hollow-clay masonry, and provides seismic resistance. The external leaf is built in fair-face rubblestone masonry, consistently with the pre-existing façade, possibly using the stones recovered from debris, avoiding their disposal and the supply of new materials. A glass fibre reinforced polymer mesh is laid in the bed joints, connecting the two leaves and preventing the disintegration of rubble masonry. The technique was validated through shake table tests on a full-scale prototype subject to out-of-plane vertical bending under natural seismic inputs. The prototype withstood earthquake motions nearly three times as intense as those recorded during the destructive 2016–2017 Central Italy seismic sequence, the maximum base acceleration being 1.7 g. Apart from limited hairline cracks, no signs of rubblestone disintegration or leaf separation were detected, measured relative displacements were less than 1 mm, and no residual deformations were detected. Design criteria are provided to allow the implementation of the proposed technology in post-earthquake reconstruction. •A technology to reconstruct masonry buildings in earthquake prone areas is proposed.•Walls are made of two connected leaves of reinforced and rubblestone masonry.•A connecting glass fibre reinforced polymer mesh is placed in bed joints.•The seismic performance of the wall is tested on a shake table.•Design criteria accounting for seismic actions are proposed.
ArticleNumber 120210
Author de Felice, Gianmarco
Roselli, Ivan
De Santis, Stefano
Sangirardi, Marialuigia
Liberatore, Domenico
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  organization: Roma Tre University, Department of Civil, Computer and Aeronautical Engineering, Via Vito Volterra 62, Rome 00146, Italy
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Keywords Reinforced masonry
Glass fibre reinforced polymer (GFRP)
Rubblestone masonry
Pull-out tests
Seismic design
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Snippet After destructive earthquakes reconstruction is sometimes preferable over repair. In historic centres, this requires a wise balance between safety and...
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StartPage 120210
SubjectTerms Glass fibre reinforced polymer (GFRP)
Pull-out tests
Reinforced masonry
Rubblestone masonry
Seismic design
Shake table tests
Title A novel seismic-resistant reconstruction technique for fair-face rubblestone masonry
URI https://dx.doi.org/10.1016/j.engstruct.2025.120210
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