Structural Health Monitoring (SHM) represents a strategic solution for the preservation of cultural heritage buildings. Existing masonry structures often suffer reductions in mechanical performances due to physiological aging of material constituents, external actions, and effect of catastrophic natural events. In many cases, the prompt prediction of damage in masonry elements is difficult and it can cause sudden collapses, compromising the safety of people. The proposed experimental study examines the effectiveness of two low-cost and innovative stress sensors, i.e. piezoelectric and capacitive stress sensors, for SHM of masonry structures. To this scope, the sensors were embedded in the mortar joints of two small-scale clay brick and calcarenite masonry wall specimens consisting of three panels. Experimental tests were carried out by applying a constant vertical compressive load at the top of each specimen and simulating the damage with a progressive reduction of the cross-section of one of the panels. During the tests, the vertical stress distributions (and their variations), were monitored by the sensors. Experimental outcomes from sensor reading were then compared to that numerically provided by a refined finite element simulation of the test. Results will show that vertical stress variations in masonry structures can be effectively accounted by the adopted sensors and potentially interpreted for the early prediction of structural damage.

Oddo M.C., Camarda G., Minafo' G., Granata M.F., Bertagnoli G., Di Trapani F., et al. (2023). Monitoring of stress distribution in damaged small-scale masonry walls by using two innovative sensors. PROCEDIA STRUCTURAL INTEGRITY, 44, 798-805 [10.1016/j.prostr.2023.01.104].

Monitoring of stress distribution in damaged small-scale masonry walls by using two innovative sensors

Oddo M. C.;Camarda G.;Minafo' G.;Granata M. F.;
2023-01-01

Abstract

Structural Health Monitoring (SHM) represents a strategic solution for the preservation of cultural heritage buildings. Existing masonry structures often suffer reductions in mechanical performances due to physiological aging of material constituents, external actions, and effect of catastrophic natural events. In many cases, the prompt prediction of damage in masonry elements is difficult and it can cause sudden collapses, compromising the safety of people. The proposed experimental study examines the effectiveness of two low-cost and innovative stress sensors, i.e. piezoelectric and capacitive stress sensors, for SHM of masonry structures. To this scope, the sensors were embedded in the mortar joints of two small-scale clay brick and calcarenite masonry wall specimens consisting of three panels. Experimental tests were carried out by applying a constant vertical compressive load at the top of each specimen and simulating the damage with a progressive reduction of the cross-section of one of the panels. During the tests, the vertical stress distributions (and their variations), were monitored by the sensors. Experimental outcomes from sensor reading were then compared to that numerically provided by a refined finite element simulation of the test. Results will show that vertical stress variations in masonry structures can be effectively accounted by the adopted sensors and potentially interpreted for the early prediction of structural damage.
2023
19th ANIDIS Conference, Seismic Engineering in Italy
11-15th September 2022
Oddo M.C., Camarda G., Minafo' G., Granata M.F., Bertagnoli G., Di Trapani F., et al. (2023). Monitoring of stress distribution in damaged small-scale masonry walls by using two innovative sensors. PROCEDIA STRUCTURAL INTEGRITY, 44, 798-805 [10.1016/j.prostr.2023.01.104].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/591039
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