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Title: Numerical and Experimental Behavior of Two-Story Confined Masonry Structure Subjected to Cyclic Loads

Author(s): Mosaad El-Diasity, Sayed Salah, Mohamed O. R. El-Hariri, Amr A. Gamal & Tarik S. Elsalakawy

Publication: IJCSM

Volume: 18

Issue:

Appears on pages(s):

Keywords: Masonry building, Confined masonry, Seismic behavior, Cyclic loading, Shear failure, Ferrocement

DOI: 10.1186/s40069-023-00632-1

Date: 1/31/2024

Abstract:
This research presents the numerical and experimental results of lateral cyclic loading applied on a two-story confined masonry structure utilizing local materials and standards. Two half-scale confined masonry structures were constructed using clay masonry units, confining columns, tie beams, and reinforced concrete slabs. The assemblies were tested up to failure using a displacement controlled loading methodology under vertical self-weight and lateral reversed cyclic loading. The walls of the assemblies have varying perforations (solid / windows / doors) to examine the influence of perforation on in-plane and out-of-plane performance. A strengthened assembly with an exterior layer of ferrocement has been used and this suggested upgrading approach enhanced the lateral resistance of the confined assembly by about (61–95%) while improving ductility and total energy absorbed by 27%. The maximum lateral drift at failure have been decreased to (23–31%), however the corresponding load for the first visible fracture have been raised by (150–175%). Furthermore, total failure has been delayed for the strengthened walls (all sides, particularly the perforated sides). Comparing distorted forms, fracture patterns, and capacity curves of finite element models included in this research yielded excellent agreement.




  


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