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Main Authors: Fraddosio, Aguinaldo, Lasorella, Celeste, Piccioni, Mario Daniele, Sacco, Elio
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2509.02559
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author Fraddosio, Aguinaldo
Lasorella, Celeste
Piccioni, Mario Daniele
Sacco, Elio
author_facet Fraddosio, Aguinaldo
Lasorella, Celeste
Piccioni, Mario Daniele
Sacco, Elio
contents In this paper, first the non-standard limit analysis 2D problem for reinforced masonry structures is suitably reformulated, giving a innovative computational framework for the evaluation of the strengthening effects of tensile reinforcements. This framework is used for designing optimized reinforcements for masonry structures aimed at improving the structural capacity, but without substantial changes in the typical behavior of masonry structural systems, since the reinforcement layout leaves the possibility of cracks opening. Therefore, both rocking motions and adaptation to support settlements remain allowed, and the transmission of too high forces to the unreinforced structural elements supporting the reinforced one is prevented. This way, a new strengthening strategy, called "weak reinforcement" approach is obtained. This strategy pursues the challenging goal of combining structural safety and conservation for architectural heritage: indeed, not only the historical masonry is preserved as much as possible, but also the original special "masonry-like" behavior. The design, in principle, of optimized strengthening intervention through the weak reinforcement approach is exemplified through the application to a trilithon under seismic loads and to an arch under a concentrated load. The capacity of the structure to adapt to support settlements is investigated through a suitable procedure for minimizing the total potential energy of the system.
format Preprint
id arxiv_https___arxiv_org_abs_2509_02559
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Limit Analysis Approach for Optimal Reinforcement Design of Masonry Structures: the Weak Reinforcement Concept
Fraddosio, Aguinaldo
Lasorella, Celeste
Piccioni, Mario Daniele
Sacco, Elio
Optimization and Control
In this paper, first the non-standard limit analysis 2D problem for reinforced masonry structures is suitably reformulated, giving a innovative computational framework for the evaluation of the strengthening effects of tensile reinforcements. This framework is used for designing optimized reinforcements for masonry structures aimed at improving the structural capacity, but without substantial changes in the typical behavior of masonry structural systems, since the reinforcement layout leaves the possibility of cracks opening. Therefore, both rocking motions and adaptation to support settlements remain allowed, and the transmission of too high forces to the unreinforced structural elements supporting the reinforced one is prevented. This way, a new strengthening strategy, called "weak reinforcement" approach is obtained. This strategy pursues the challenging goal of combining structural safety and conservation for architectural heritage: indeed, not only the historical masonry is preserved as much as possible, but also the original special "masonry-like" behavior. The design, in principle, of optimized strengthening intervention through the weak reinforcement approach is exemplified through the application to a trilithon under seismic loads and to an arch under a concentrated load. The capacity of the structure to adapt to support settlements is investigated through a suitable procedure for minimizing the total potential energy of the system.
title Limit Analysis Approach for Optimal Reinforcement Design of Masonry Structures: the Weak Reinforcement Concept
topic Optimization and Control
url https://arxiv.org/abs/2509.02559