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Role of fiber inclusion in adobe masonry construction

Role of fiber inclusion in adobe masonry construction

Kafodya, Innocent, Okonta, Felix and Kloukinas, Panos ORCID: 0000-0002-5158-3109 (2019) Role of fiber inclusion in adobe masonry construction. Journal of Building Engineering, 26:100904. ISSN 2352-7102 (Online) (doi:https://doi.org/10.1016/j.jobe.2019.100904)

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24934 KLOUKINAS_Fiber_Inclusion_Adobe_Masonry_Construction_(AAM_v1)_2019.pdf - Accepted Version
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[img] PDF (Author's Accepted Manuscript - Pre-Proof)
24934 KLOUKINAS_Fiber_Inclusion_Adobe_Masonry_Construction_(AAM)_2019.pdf - Accepted Version
Restricted to Repository staff only until 30 July 2020.

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Abstract

Adobe masonry construction constitutes a notable portion of the buildings in both urban and rural areas in less developed countries. Seismic performance of adobe buildings is poor, and low-cost retrofitting measures are required to enhance the resilience of such buildings during an earthquake. In this study, mechanical properties of fiber reinforced and unreinforced adobe masonry were investigated. Sisal fibers with length of 25 mm were used as reinforcing elements for mortar and adobe bricks at a fiber content of 0.75%. A series of laboratory tests were performed on masonry triplets, couplets and prisms to determine shear strength, tensile resistance and compressive strength, respectively. Uniaxial compression and diagonal compression shear tests were performed on wallets and wall panels, respectively to determine compressive strength and shear strength of the adobe masonry. Finite element linear elastic analysis was conducted using ANSYS Finite-Element code to evaluate the stress state of loaded wall panels. The structural design of adobe masonry walls was carried out according to BS5628 and Eurocode 6 standards, by utilising material properties acquired from the experiments. The results showed that fiber inclusion in the mortar caused an increase in tensile strength of 31%, friction coefficient of 22%, and prism compressive strength of 25% compared with unreinforced mortar. The reinforced wallets exhibited a twofold increase in compressive strength while reinforced wall panels indicated threefold increase in shear strength. The stress state in the reinforced and unreinforced wall panels was not a pure shear state and was better described by RILEM recommendations. The allowable vertical load resistance was found to be 40 kN/m and 100 kN/m for unreinforced and reinforced walls, respectively. The allowable lateral shear resistance was found to be 25 kN/m and 80 kN/m for unreinforced and reinforced walls, respectively. Reinforced masonry elements exhibited considerable ductility and unreinforced masonry elements showed brittle behaviour.

Item Type: Article
Uncontrolled Keywords: adobe bricks, mortar, fiber reinforced soil, masonry
Subjects: T Technology > TA Engineering (General). Civil engineering (General)
Faculty / Department / Research Group: Faculty of Engineering & Science
Faculty of Engineering & Science > Department of Engineering Science
Last Modified: 12 Aug 2019 11:51
Selected for GREAT 2016: None
Selected for GREAT 2017: None
Selected for GREAT 2018: None
Selected for GREAT 2019: None
URI: http://gala.gre.ac.uk/id/eprint/24934

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