Shear load capacity in masonry: international standards comparative analysis

Abstract Several structural models aim to predict the behavior of masonry walls. Those are included in technical standards strive to ensure the anticipation of the structural capacity, thereby assuring its safety. Different regions of the world encompass diverse parameters for predicting the lateral...

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Bibliographic Details
Published in:Revista IBRACON de estruturas e materiais 2025, Vol.18 (1)
Main Authors: Tinoco, Vinícius Navarro Varela, Medeiros, Klaus André de Sousa, Parsekian, Guilherme Aris
Format: Article
Language:eng ; por
Subjects:
ENGINEERING, CIVIL
finite element models
horizontal loads
shear walls
structural masonry
technical standards
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Summary:Abstract Several structural models aim to predict the behavior of masonry walls. Those are included in technical standards strive to ensure the anticipation of the structural capacity, thereby assuring its safety. Different regions of the world encompass diverse parameters for predicting the lateral capacity of masonry members. This study sought to compare the Brazilian, Canadian, American, Australian, and European masonry standards regarding the shear and flexural capacity specification of walls. Equations derived from the standards were contrasted against finite element modeling results and to reliable formulation from the literature for predicting wall shear behavior. Additionally, an actualization is proposed to the Brazilian standard. The results revealed that while flexural capacity specifications result in comparable values across all standards, the Brazilian standard exhibited the least conservatism in the shear capacity, followed by the Australian, American, Canadian, and European standards. The diagonal shear was the primary mode of panel failure of the walls from the FE (Finite Element) modeling. The suggested adjustments to the Brazilian code, including considering the net area and correction of the initial shear strength (fvk0), result values close to the modeling results. Resumo Enquanto diversos modelos estruturais buscam prever o comportamento de paredes em alvenaria, as normas técnicas buscam promover a previsão das cargas resistentes, de modo a trazer segurança para as estruturas. Diferentes regiões do mundo possuem parâmetros diversos para previsão da capacidade lateral das estruturas em alvenaria. O presente trabalho buscou realizar a comparação entre as normas de alvenaria estrutural brasileira, americana, australiana e europeia no que tange à resistência ao cisalhamento das mesmas e à flexocompressão que estão submetidas. Os equacionamentos indicados nas normas foram comparados com modelagem por elementos finitos e com a equação da literatura (2022), consideradas fidedignas para previsão do comportamento das paredes submetidas a forças laterais no plano. É proposta uma atualização para a norma brasileira. Os resultados mostraram que enquanto os resultados dos modelos para flexocompressão têm valores similares em todas as normas, para cisalhamento, a norma brasileira se mostrou como sendo a menos conservadora, seguida pela australiana, americana, canadense e europeia. Foi identificado ainda, por meio da modelagem em EF (Elementos Finit
ISSN:1983-4195
1983-4195
DOI:10.1590/s1983-41952025000800003