Multiscale procedure to assign structural damage levels in masonry buildings from observed or numerically simulated seismic performance

Cattari, Serena; Angiolilli, Michele

doi:10.1007/s10518-022-01504-x

Cited by 12 publications

(10 citation statements)

References 71 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The mechanical parameters adopted are listed in Table 2 and were based on those calibrated for the Visso's school (Brunelli et al 2021) through a very accurate numerical simulation of the actual response of this permanently monitored asset. The reliability of those values was also confirmed in Cattari and Angiolilli (2022) and Angiolilli et al (2022). Some mechanical parameters were slightly modified with respect to those assumed for the Visso's school based on expert judgment and some preliminary sensitivity analyses performed on the aggregate for the aim of the numerical simulation of actual response reported in Brunelli et al (2022a).…”

Section: Global In-plane Responsementioning

confidence: 90%

See 1 more Smart Citation

Fragility curves of masonry buildings in aggregate accounting for local mechanisms and site effects

Angiolilli

Brunelli

Cattari

2023

Bull Earthquake Eng

Self Cite

View full text Add to dashboard Cite

The seismic evaluation of masonry buildings in aggregate, largely diffused within the existing Italian and European building stock, represents a difficult and open task that has not been exhaustively investigated so far. The study proposes a procedure aimed at evaluating the potential impact of the combination of local mechanisms and site-amplification in terms of fragility curves on an existing unreinforced masonry (URM) aggregate which is made of five adjacent structural units mutually interacting with each other during seismic sequences. The case study is inspired by built heritage of the historic centre of Visso struck by the Central Italy 2016/2017 earthquakes. The in-plane (IP) response of URM buildings was simulated through nonlinear dynamic analyses performed on a 3D equivalent frame model of the structure, whereas out-of-plane (OOP) mechanisms were analysed by adopting the rigid-block assumption but assuming, as seismic input, the floor accelerations derived from the post-processing of data derived from the global 3D model. An innovative procedure considering the pounding effect to the global response of the building is also presented. Two soil conditions were assumed with (freefield) and without (bedrock) site amplification. The results showed that site effects strongly affected the seismic vulnerability of the aggregate, also altering the combination between IP and OOP mechanisms. In fact, for bedrock condition, especially for medium–high damage levels, local mechanisms were prevailing with respect to the IP response. Conversely, for freefield condition, IP mainly governed the overall behaviour for all the damage levels, consistently with the field evidence.

show abstract

Section: Global In-plane Responsementioning

confidence: 90%

“…from DL1 to DL5). Please refers also to Cattari and Angiolilli (2022) for the description of a more accurate criterion aimed at evaluating the EMS-98 global damage grade. In particular, the adopted multiscale approach combines two heuristic criteria at wall and global scale.…”

Section: Shear Behaviourmentioning

confidence: 99%

Fragility curves of masonry buildings in aggregate accounting for local mechanisms and site effects

Angiolilli

Brunelli

Cattari

2023

Bull Earthquake Eng

Self Cite

View full text Add to dashboard Cite

show abstract

“…For more details and examples of the application of this methodology, the reader is referred to Cattari and Angiolilli. 59…”

Section: 𝐷 𝐿 𝑊mentioning

confidence: 99%

Damage assessment of unreinforced masonry buildings incorporating damage accumulation

Inarritu,

Kohrangi,

Bazzurro

2024

Earthq Engng Struct Dyn

View full text Add to dashboard Cite

Recent earthquakes have shown susceptibility of unreinforced masonry (URM) buildings to damage accumulation in seismic sequences or long duration ground motions. Current structural modelling approaches commonly disregard the damage accumulation in URM buildings or they are unable to accurately capture this phenomenon unless sophisticated FEM models are employed. Such models are not feasible in risk‐based applications given the required large number of dynamic analyses needed to develop robust fragility and vulnerability curves. On the other hand, the common displacement‐based engineering demand parameters (EDP), such as inter‐story drift ratio, fail to capture the impact of damage accumulation in simpler, more manageable models. An alternative is to use advanced damage indices that are capable of monitoring the monotonic accumulation of damages. This study proposes a displacement‐ and energy‐based damage index that uses, as the basis, the Park and Ang damage index, modified and calibrated through experimental data of individual URM elements. Our calibration procedure maps the physical observed damage states to the hysteretic response of the elements. Consequently, damage on the individual elements is aggregated to define a global damage state at building level. Validation is carried out based on an equivalent frame model of a building tested on a shake table. Additionally, the model is subjected to multiple ground motions of seismic sequences and to long‐duration ground motions to evaluate the performance of the proposed damage index. In comparison with displacement‐based damage measures, the proposed damage index shows a superior ability to capture cumulative damage, even when simplified models are employed.

show abstract

“…As evidenced in a recent work (Cattari and Angiolilli 2022), the debate about the definition of damage levels for masonry buildings is still open. Several methods exist, some of which based on a multiscale approach, some others based on the definition of specific thresholds for a unique parameter, e.g.…”

Section: Damage State Definitionmentioning

confidence: 99%

Typological fragility analysis of masonry buildings in Emilia Romagna region (Italy)

Ferretti

Simoni²,

Buratti³

et al. 2023

Bull Earthquake Eng

View full text Add to dashboard Cite

UnReinforced Masonry (URM) buildings constitute the majority of the Italian building stock and represent one of the most vulnerable construction typologies, as emerged during the seismic events occurred in the last decades. The objective of the present work is the proposal of a methodology for the seismic vulnerability and fragility assessment of different typologies of URM buildings. Through the statistical analysis of post-earthquake damage survey forms and of census data, the most prevalent structural typologies were identified in the Emilia Romagna region (Italy), leading to the definition of two reference masonry buildings, built at the beginning of the XX century and representative of the building stock of the study area. These buildings were modeled according to the equivalent frame method and their seismic performance was studied by means of nonlinear static analyses, considering uncertainties on the mechanical properties of masonry, on the intensity of the seismic action and on the displacement demand calculation method. Through the definition of Response Surfaces, analytical fragility curves relative to the investigated structural typologies were determined for the different damage states.

show abstract

Multiscale procedure to assign structural damage levels in masonry buildings from observed or numerically simulated seismic performance

Cited by 12 publications

References 71 publications

Fragility curves of masonry buildings in aggregate accounting for local mechanisms and site effects

Fragility curves of masonry buildings in aggregate accounting for local mechanisms and site effects

Damage assessment of unreinforced masonry buildings incorporating damage accumulation

Typological fragility analysis of masonry buildings in Emilia Romagna region (Italy)

Contact Info

Product

Resources

About