Andrea Penna scite author profile

The macroelement technique for modelling the nonlinear response of masonry panels is particularly efficient and suitable for the analysis of the seismic behaviour of complex walls and buildings. The paper presents a macroelement model specifically developed for simulating the cyclic in-plane response of masonry walls, with possible applications in nonlinear static and dynamic analysis of masonry structures. The model, starting from a previously developed macroelement model, has been refined in the representation of flexural-rocking and shear damage modes, and it is capable of fairly simulating the experimental response of cyclic tests performed on masonry piers. By means of two internal degrees of freedom, the two-node macroelement permits to represent the coupling of axial and flexural response as well as the interaction of shear and flexural damage.

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Processing Italian damage data to derive typological fragility curves

Rota

Penna

Strobbia

2008

Soil Dynamics and Earthquake Engineering

240

162

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A methodology for deriving analytical fragility curves for masonry buildings based on stochastic nonlinear analyses

Rota

Penna

Magenes

2010

Engineering Structures

215

107

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Seismic behaviour of ordinary masonry buildings during the 2016 central Italy earthquakes

Sorrentino

Cattari

Porto

et al. 2018

Bull Earthquake Eng

207

103

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Between August 2016 and January 2017 nine shallow earthquakes ranging from 5.0 and 6.5 of moment magnitude affected Central Italy, involving several municipalities wherein unreinforced masonry buildings are more than three quarters of all constructions. Damage state has been very severe, with sixteen settlements belonging to the municipalities of Amatrice, Arquata del Tronto, Accumoli. Castelsantangelo sul Nera and Norcia experiencing a cumulative European macroseismic scale intensity larger than IX. Ground motion demand in terms of peak ground velocity was approximately two or three times what expected for a 475 years return period while the pseudoacceleration response spectra showed values between once and twice gravity acceleration for the period range typical of two and three storeys unreinforced masonry buildings. Moreover, since October 2016, such large seismic demand acted on structures damaged from previous shocks testifying the effects of damage accumulation, too. The significant shaking alone cannot explain the extremely severe damage of some settlements, with large portions of whole blocks completely collapsed, highlighting the need for investigating the specific vulnerability factors and construction features of unreinforced masonry buildings in the affected area. In fact, although some deficiencies already highlighted in previous Italian earthquakes (e.g. inadequate structural connections) have been surveyed also during this sequence, a marked vulnerability of masonry and its mortar has been noticed, in particular in the area between Amatrice and Arquata del Tronto. On the contrary, the historical constructions in Norcia performed much better, as a result of the 1860 seismic code and of the retrofitting interventions implemented after the different earthquakes occurred in the last two centuries. Finally, a number of demolished and rebuilt constructions performed very well, and this was also the case also of modern hollow clay blockwork buildings that protected not only human life, but also cost of construction and continuity of use.

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Andrea Penna

TREMURI program: An equivalent frame model for the nonlinear seismic analysis of masonry buildings

A nonlinear macroelement model for the seismic analysis of masonry buildings

Processing Italian damage data to derive typological fragility curves

A methodology for deriving analytical fragility curves for masonry buildings based on stochastic nonlinear analyses

Seismic behaviour of ordinary masonry buildings during the 2016 central Italy earthquakes

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