Structural behavior of strengthened interlocking load-bearing hollow block wall with opening subjected to axial and seismic loads

This thesis presents the results of an investigation on the strengthening of interlocking load bearing hollow block walls with opening subjected to axial and seismic loads. Wall panels built using PUTRA block building system, developed by the Housing Research Centre, Universiti Putra Malaysia, were...

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Main Author: Choy, Wai Kent
Format: Thesis
Language:English
Published: 2010
Online Access:http://psasir.upm.edu.my/id/eprint/40858/7/FK%202010%2028R.pdf
http://psasir.upm.edu.my/id/eprint/40858/
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spelling my.upm.eprints.408582015-10-02T09:05:41Z http://psasir.upm.edu.my/id/eprint/40858/ Structural behavior of strengthened interlocking load-bearing hollow block wall with opening subjected to axial and seismic loads Choy, Wai Kent This thesis presents the results of an investigation on the strengthening of interlocking load bearing hollow block walls with opening subjected to axial and seismic loads. Wall panels built using PUTRA block building system, developed by the Housing Research Centre, Universiti Putra Malaysia, were used in the study. In this study, 3.0 m × 3.0 m wall panels with four types of openings were analysed with four types of strengthening methods using finite element method. The four types of openings representing openings for a single panel window (0.6 m × 1.2 m),single panel door (0.9 m × 2.0 m), double panel window (1.2 m × 1.2 m) and 1 ½ panel door (1.5 m × 2.0 m) were studied. For axial load study, non-linear analysis method was used to obtain the failure load of each wall. For seismic load study,spectral response analysis was performed based on the seismic intensity to obtain the maximum stress and maximum displacement for the walls with different types of openings and strengthening methods. The research involved the development of a finite element model of PUTRA block wall panels using the LUSAS software and verification of the compressive strength of the finite element analysis results with those experimental results by earlier researchers. The verification included block, prism, 1.2m wall, 3m wall, 3m wall with stiffener and wall with opening. The study focused on the structural behaviour of the strengthened interlocking load bearing hollow block wall with opening when subjected to axial load and seismic loads. For axial load analysis, the structural behaviour was studied in terms of ultimate strength, stress-strain distribution, deflection shape, maximum principal and shear stresses. For seismic load analysis, the structural behaviour was studied in terms of maximum displacement, maximum principal stress, maximum strain,maximum shear stress, stress-strain distribution and displacement shape of the wall. The study showed that the strength of interlocking load bearing hollow block wall is significantly affected by the presence of openings. Based on the axial load analysis results, efficiency of each type of strengthening method was evaluated and the best method based on the height of the building was proposed. With the proposed strengthening methods, for opening type 1 and 2, the wall was able to sustain up to 5 storey loading while for opening type 3 and 4, the wall was able to sustain up to 4 and 2 storey loadings respectively. For seismic load analysis, efficiency of each type of strengthening method was evaluated and the best method depending on the intensity of the seismic load was proposed. With single storey load and the proposed strengthening methods, for all four types of openings, the wall is able to sustain high seismic load (up to 0.4g). 2010-04 Thesis NonPeerReviewed application/pdf en http://psasir.upm.edu.my/id/eprint/40858/7/FK%202010%2028R.pdf Choy, Wai Kent (2010) Structural behavior of strengthened interlocking load-bearing hollow block wall with opening subjected to axial and seismic loads. Masters thesis, Universiti Putra Malaysia.
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
description This thesis presents the results of an investigation on the strengthening of interlocking load bearing hollow block walls with opening subjected to axial and seismic loads. Wall panels built using PUTRA block building system, developed by the Housing Research Centre, Universiti Putra Malaysia, were used in the study. In this study, 3.0 m × 3.0 m wall panels with four types of openings were analysed with four types of strengthening methods using finite element method. The four types of openings representing openings for a single panel window (0.6 m × 1.2 m),single panel door (0.9 m × 2.0 m), double panel window (1.2 m × 1.2 m) and 1 ½ panel door (1.5 m × 2.0 m) were studied. For axial load study, non-linear analysis method was used to obtain the failure load of each wall. For seismic load study,spectral response analysis was performed based on the seismic intensity to obtain the maximum stress and maximum displacement for the walls with different types of openings and strengthening methods. The research involved the development of a finite element model of PUTRA block wall panels using the LUSAS software and verification of the compressive strength of the finite element analysis results with those experimental results by earlier researchers. The verification included block, prism, 1.2m wall, 3m wall, 3m wall with stiffener and wall with opening. The study focused on the structural behaviour of the strengthened interlocking load bearing hollow block wall with opening when subjected to axial load and seismic loads. For axial load analysis, the structural behaviour was studied in terms of ultimate strength, stress-strain distribution, deflection shape, maximum principal and shear stresses. For seismic load analysis, the structural behaviour was studied in terms of maximum displacement, maximum principal stress, maximum strain,maximum shear stress, stress-strain distribution and displacement shape of the wall. The study showed that the strength of interlocking load bearing hollow block wall is significantly affected by the presence of openings. Based on the axial load analysis results, efficiency of each type of strengthening method was evaluated and the best method based on the height of the building was proposed. With the proposed strengthening methods, for opening type 1 and 2, the wall was able to sustain up to 5 storey loading while for opening type 3 and 4, the wall was able to sustain up to 4 and 2 storey loadings respectively. For seismic load analysis, efficiency of each type of strengthening method was evaluated and the best method depending on the intensity of the seismic load was proposed. With single storey load and the proposed strengthening methods, for all four types of openings, the wall is able to sustain high seismic load (up to 0.4g).
format Thesis
author Choy, Wai Kent
spellingShingle Choy, Wai Kent
Structural behavior of strengthened interlocking load-bearing hollow block wall with opening subjected to axial and seismic loads
author_facet Choy, Wai Kent
author_sort Choy, Wai Kent
title Structural behavior of strengthened interlocking load-bearing hollow block wall with opening subjected to axial and seismic loads
title_short Structural behavior of strengthened interlocking load-bearing hollow block wall with opening subjected to axial and seismic loads
title_full Structural behavior of strengthened interlocking load-bearing hollow block wall with opening subjected to axial and seismic loads
title_fullStr Structural behavior of strengthened interlocking load-bearing hollow block wall with opening subjected to axial and seismic loads
title_full_unstemmed Structural behavior of strengthened interlocking load-bearing hollow block wall with opening subjected to axial and seismic loads
title_sort structural behavior of strengthened interlocking load-bearing hollow block wall with opening subjected to axial and seismic loads
publishDate 2010
url http://psasir.upm.edu.my/id/eprint/40858/7/FK%202010%2028R.pdf
http://psasir.upm.edu.my/id/eprint/40858/
_version_ 1643832833619263488
score 13.211869